BACKGROUND Stem cells are undifferentiated cells that possess the potential for self-renewal with the capacity to differentiate into multiple lineages.In humans,their limited numbers pose a challenge in fulfilling the...BACKGROUND Stem cells are undifferentiated cells that possess the potential for self-renewal with the capacity to differentiate into multiple lineages.In humans,their limited numbers pose a challenge in fulfilling the necessary demands for the regeneration and repair of damaged tissues or organs.Studies suggested that mesenchymal stem cells(MSCs),necessary for repair and regeneration via transplantation,require doses ranging from 10 to 400 million cells.Furthermore,the limited expansion of MSCs restricts their therapeutic application.AIM To optimize a novel protocol to achieve qualitative and quantitative expansion of MSCs to reach the targeted number of cells for cellular transplantation and minimize the limitations in stem cell therapy protocols.METHODS Human umbilical cord(hUC)tissue derived MSCs were obtained and re-cultured.These cultured cells were subjected to the following evaluation pro-cedures:Immunophenotyping,immunocytochemical staining,trilineage differentiation,population doubling time and number,gene expression markers for proliferation,cell cycle progression,senescence-associatedβ-galactosidase assay,human telomerase reverse transcriptase(hTERT)expression,mycoplasma,cytomegalovirus and endotoxin detection.RESULTS Analysis of pluripotent gene markers Oct4,Sox2,and Nanog in recultured hUC-MSC revealed no significant differences.The immunophenotypic markers CD90,CD73,CD105,CD44,vimentin,CD29,Stro-1,and Lin28 were positively expressed by these recultured expanded MSCs,and were found negative for CD34,CD11b,CD19,CD45,and HLA-DR.The recultured hUC-MSC population continued to expand through passage 15.Proliferative gene expression of Pax6,BMP2,and TGFb1 showed no significant variation between recultured hUC-MSC groups.Nevertheless,a significant increase(P<0.001)in the mitotic phase of the cell cycle was observed in recultured hUC-MSCs.Cellular senescence markers(hTERT expression andβ-galactosidase activity)did not show any negative effect on recultured hUC-MSCs.Additionally,quality control assessments consistently confirmed the absence of mycoplasma,cytomegalovirus,and endotoxin contamination.CONCLUSION This study proposes the development of a novel protocol for efficiently expanding stem cell population.This would address the growing demand for larger stem cell doses needed for cellular transplantation and will significantly improve the feasibility of stem cell based therapies.展开更多
AIM:To investigate the efficacy and the safety of umbilical cord derived mesenchymal stem cell(UC-MSC)implantation in patients with retinitis pigmentosa(RP).METHODS:This prospective,single-center,phase 3 clinical stud...AIM:To investigate the efficacy and the safety of umbilical cord derived mesenchymal stem cell(UC-MSC)implantation in patients with retinitis pigmentosa(RP).METHODS:This prospective,single-center,phase 3 clinical study enrolled 124 eyes of 82 RP patients.The patients received 5 million UC-MSCs to the suprachoroidal area with a surgical procedure.Patients were evaluated on the 1st day,1st,and 6th months postoperatively.Best corrected visual acuity(BCVA),anterior segment and fundus examinations,color photography,optical coherence tomography(OCT),and visual field(VF)tests were carried out at each visit.Fundus fluorescein angiography(FFA)and multifocal electroretinography(mfERG)recordings were performed at the end of the 6th month.Ocular and systemic adverse events of the surgical procedure were also noted.RESULTS:All of the 82 patients completed the 6-month follow-up period.None of them had any serious systemic or ocular complications.There were statistically significant improvements in BCVA and VF during the study(all P<0.05).The amplitudes of the P1 waves in the central areas showed significant improvements in mfERG recordings.There were also significant increases in implicit times of P1 waves in the central areas.CONCLUSION:Suprachoroidal administration of UC-MSCs has beneficial effect on BCVA,VF,and mfERG measurements during the 6-month follow-up period.Cell mediated therapy based on the secretion of growth factors(GFs)seems to be an effective and safe option for degenerative retinal diseases.展开更多
BACKGROUND Peripheral nerve injury can occur as a result of trauma or disease and carries significant morbidity including sensory and motor loss.The body has limited ability for nerve regeneration and functional recov...BACKGROUND Peripheral nerve injury can occur as a result of trauma or disease and carries significant morbidity including sensory and motor loss.The body has limited ability for nerve regeneration and functional recovery.Left untreated,nerve lesions can cause lifelong disability.Traditional treatment options such as neurorrhaphy and neurolysis have high failure rates.Surgical reconstruction with autograft carries donor site morbidity and often provide suboptimal results.Mesenchymal stem cells(MSCs)are known to have promising regenerative potential and have gained attention as a treatment option for nerve lesions.It is however,unclear whether it can be effectively used for nerve regeneration.AIM To evaluate the evidence for the use of human umbilical cord derived MSCs(UCMSCs)in peripheral nerve regeneration.METHODS We carried out a systematic literature review in accordance with the PRISMA protocol.A literature search was performed from conception to September 2019 using PubMed,EMBASE and Web of Science.The results of eligible studies were appraised.A risk of bias analysis was carried out using Cochrane’s RoB 2.0 tool.RESULTS Fourteen studies were included in this review.A total of 279 subjects,including both human and animal were treated with UCMSCs.Four studies obtained UCMSCs from a third-party source and the remainder were harvested by the investigators.Out of the 14 studies,thirteen conducted xenogenic transplantation into nerve injury models.All studies reported significant improvement in nerve regeneration in the UCMSC treated groups compared with the various different controls and untreated groups.CONCLUSION The evidence summarised in this PRISMA systematic review of in vivo studies supports the notion that human UCMSC transplantation is an effective treatment option for peripheral nerve injury.展开更多
BACKGROUND Zinc(Zn)is the second most abundant trace element after Fe,present in the human body.It is frequently reported in association with cell growth and proliferation,and its deficiency is considered to be a majo...BACKGROUND Zinc(Zn)is the second most abundant trace element after Fe,present in the human body.It is frequently reported in association with cell growth and proliferation,and its deficiency is considered to be a major disease contributing factor.AIM To determine the effect of Zn on in vitro growth and proliferation of human umbilical cord(hUC)-derived mesenchymal stem cells(MSCs).METHODS hUC-MSCs were isolated from human umbilical cord tissue and characterized based on immunocytochemistry,immunophenotyping,and tri-lineage differentiation.The impact of Zn on cytotoxicity and proliferation was determined by MTT and Alamar blue assay.To determine the effect of Zn on population doubling time(PDT),hUC-MSCs were cultured in media with and without Zn for several passages.An in vitro scratch assay was performed to analyze the effect of Zn on the wound healing and migration capability of hUC-MSCs.A cell adhesion assay was used to test the surface adhesiveness of hUC-MSCs.Transcriptional analysis of genes involved in the cell cycle,proliferation,migration,and selfrenewal of hUC-MSCs was performed by quantitative real-time polymerase chain reaction.The protein expression of Lin28,a pluripotency marker,was analyzed by immunocytochemistry.RESULTS Zn at lower concentrations enhanced the rate of proliferation but at higher concentrations(>100μM),showed concentration dependent cytotoxicity in hUC-MSCs.hUC-MSCs treated with Zn exhibited a significantly greater healing and migration rate compared to untreated cells.Zn also increased the cell adhesion rate,and colony forming efficiency(CFE).In addition,Zn upregulated the expression of genes involved in the cell cycle(CDC20,CDK1,CCNA2,CDCA2),proliferation(transforming growth factorβ1,GDF5,hypoxia-inducible factor 1α),migration(CXCR4,VCAM1,VEGF-A),and self-renewal(OCT4,SOX2,NANOG)of hUC-MSCs.Expression of Lin28 protein was significantly increased in cells treated with Zn.CONCLUSION Our findings suggest that zinc enhances the proliferation rate of hUC-MSCs decreasing the PDT,and maintaining the CFE.Zn also enhances the cell adhesion,migration,and self-renewal of hUC-MSCs.These results highlight the essential role of Zn in cell growth and development.展开更多
<strong>Background:</strong> The aim of this study was to evaluate vision related quality of life (VRQoL) in patients with retinitis pigmentosa (RP) after suprachoroidal umbilical cord derived mesenchymal ...<strong>Background:</strong> The aim of this study was to evaluate vision related quality of life (VRQoL) in patients with retinitis pigmentosa (RP) after suprachoroidal umbilical cord derived mesenchymal stem cell (UC-MSC) treatment. <strong>Methods:</strong> The patients were evaluated regarding to the VRQoL before the treatment and at the end of the first year. The study was performed in an affiliated hospital of a university between 2018 and 2020. The patients were operated by a single surgeon and evaluated at baseline and at first, sixth and twelfth month after stem cell implantation. To assess patients’ subjective visual situation, we used Impact of Vision Impairment (IVI) Profile 28-item questionnaire. It basically evaluated vision-related activities in three subscales: “reading and accessing information”, “mobility and independence” and “emotional well-being”. This test is established to assess VRQoL in low vision patients. <strong>Results:</strong> A total of 123 people, ranging in age from 18 to 48 years, participated in the study and 43.9% (n = 54) were women. The study patients were followed up for one year and the questionnaire was filled by patients at baseline and one year after surgery. In all groups, no difficulty was observed in understanding the questionnaire. The results showed significant improvements in VRQoL after stem cell treatment (p < 0.05). The analysis of each subscale score including “reading and accessing information”, “mobility and independence” and “emotional well-being” before and after treatment showed significant improvements in all subscale scores (p < 0.05). <strong>Conclusions:</strong> IVI 28 item questionnaire seems to be an effective test for the assessment of VRQoL in low vision patients. The suprachoroidal implantation of UC-MSC for the treatment of RP can improve the quality of life of these patients.展开更多
Endometrial injury caused by repeated uterine procedures,infections,inflammation,or uterine artery dysfunction can deplete endometrial stem/progenitor cells and impair regeneration,thereby diminishing endometrial rece...Endometrial injury caused by repeated uterine procedures,infections,inflammation,or uterine artery dysfunction can deplete endometrial stem/progenitor cells and impair regeneration,thereby diminishing endometrial receptivity and evidently lowering the live birth,clinical pregnancy,and embryo implantation rates.Currently,safe and effective clinical treatment methods or gene-targeted therapies are unavailable,especially for severe endometrial injury.Umbilical cord mesenchymal stem cells and their extracellular vesicles are characterized by their simple collection,rapid proliferation,low immunogenicity,and tumorigenicity,along with their involvement in regulating angiogenesis,immune response,cell apoptosis and proliferation,inflammatory response,and fibrosis,Therefore,these cells and vesicles hold broad potential for application in endometrial repair.This article reviewed recent research on human umbilical cord mesenchymal stem cells as well as their extracellular vesicles in repairing endometrial injury.展开更多
Complete transverse injury of peripheral nerves is challenging to treat.Exosomes secreted by human umbilical cord mesenchymal stem cells are considered to play an important role in intercellular communication and regu...Complete transverse injury of peripheral nerves is challenging to treat.Exosomes secreted by human umbilical cord mesenchymal stem cells are considered to play an important role in intercellular communication and regulate tissue regeneration.In previous studies,a collagen/hyaluronic acid sponge was shown to provide a suitable regeneration environment for Schwann cell proliferation and to promote axonal regeneration.This three-dimensional(3D)composite conduit contains a collagen/hyaluronic acid inner sponge enclosed in an electrospun hollow poly(lactic-co-glycolic acid)tube.However,whether there is a synergy between the 3D composite conduit and exosomes in the repair of peripheral nerve injury remains unknown.In this study,we tested a comprehensive strategy for repairing long-gap(10 mm)peripheral nerve injury that combined the 3D composite conduit with human umbilical cord mesenchymal stem cell-derived exosomes.Repair effectiveness was evaluated by sciatic functional index,sciatic nerve compound muscle action potential recording,recovery of muscle mass,measuring the cross-sectional area of the muscle fiber,Masson trichrome staining,and transmission electron microscopy of the regenerated nerve in rats.The results showed that transplantation of the 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes promoted peripheral nerve regeneration and restoration of motor function,similar to autograft transplantation.More CD31-positive endothelial cells were observed in the regenerated nerve after transplantation of the loaded conduit than after transplantation of the conduit without exosomes,which may have contributed to the observed increase in axon regeneration and distal nerve reconnection.Therefore,the use of a 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes represents a promising cell-free therapeutic option for the treatment of peripheral nerve injury.展开更多
Pulmonary diseases across all ages threaten millions of people and have emerged as one of the major public health issues worldwide.For diverse disease con-ditions,the currently available approaches are focused on alle...Pulmonary diseases across all ages threaten millions of people and have emerged as one of the major public health issues worldwide.For diverse disease con-ditions,the currently available approaches are focused on alleviating clinical symptoms and delaying disease progression but have not shown significant therapeutic effects in patients with lung diseases.Human umbilical cord-derived mesenchymal stem cells(UC-MSCs)isolated from the human UC have the capacity for self-renewal and multilineage differentiation.Moreover,in recent years,these cells have been demonstrated to have unique advantages in the treatment of lung diseases.We searched the Public Clinical Trial Database and found 55 clinical trials involving UC-MSC therapy for pulmonary diseases,including coronavirus disease 2019,acute respiratory distress syndrome,bron-chopulmonary dysplasia,chronic obstructive pulmonary disease,and pulmonary fibrosis.In this review,we summarize the characteristics of these registered clinical trials and relevant published results and explore in depth the challenges and opportunitiesfaced in clinical application.Moreover,the underlying mole-cular mechanisms involved in UC-MSC-based therapy for pulmonary diseases are also analyzed in depth.In brief,this comprehensive review and detailed analysis of these clinical trials can be expected to provide a scientific reference for future large-scale clinical application.展开更多
Objective Our previous studies established that microRNA(miR)-451 from human umbilical cord mesenchymal stem cell-derived exosomes(hUC-MSC-Exos)alleviates acute lung injury(ALI).This study aims to elucidate the mechan...Objective Our previous studies established that microRNA(miR)-451 from human umbilical cord mesenchymal stem cell-derived exosomes(hUC-MSC-Exos)alleviates acute lung injury(ALI).This study aims to elucidate the mechanisms by which miR-451 in hUC-MSC-Exos reduces ALI by modulating macrophage autophagy.Methods Exosomes were isolated from hUC-MSCs.Severe burn-induced ALI rat models were treated with hUC-MSC-Exos carrying the miR-451 inhibitor.Hematoxylin-eosin staining evaluated inflammatory injury.Enzyme-linked immunosorbnent assay measured lipopolysaccharide(LPS),tumor necrosis factor-α,and interleukin-1βlevels.qRT-PCR detected miR-451 and tuberous sclerosis complex 1(TSC1)expressions.The regulatory role of miR-451 on TSC1 was determined using a dual-luciferase reporter system.Western blotting determined TSC1 and proteins related to the mammalian target of rapamycin(mTOR)pathway and autophagy.Immunofluorescence analysis was conducted to examine exosomes phagocytosis in alveolar macrophages and autophagy level.Results hUC-MSC-Exos with miR-451 inhibitor reduced burn-induced ALI and promoted macrophage autophagy.MiR-451 could be transferred from hUC-MSCs to alveolar macrophages via exosomes and directly targeted TSC1.Inhibiting miR-451 in hUC-MSC-Exos elevated TSC1 expression and inactivated the mTOR pathway in alveolar macrophages.Silencing TSC1 activated mTOR signaling and inhibited autophagy,while TSC1 knockdown reversed the autophagy from the miR-451 inhibitor-induced.Conclusion miR-451 from hUC-MSC exosomes improves ALI by suppressing alveolar macrophage autophagy through modulation of the TSC1/mTOR pathway,providing a potential therapeutic strategy for ALI.展开更多
Cardiac arrest can lead to severe neurological impairment as a result of inflammation,mitochondrial dysfunction,and post-cardiopulmonary resuscitation neurological damage.Hypoxic preconditioning has been shown to impr...Cardiac arrest can lead to severe neurological impairment as a result of inflammation,mitochondrial dysfunction,and post-cardiopulmonary resuscitation neurological damage.Hypoxic preconditioning has been shown to improve migration and survival of bone marrow–derived mesenchymal stem cells and reduce pyroptosis after cardiac arrest,but the specific mechanisms by which hypoxia-preconditioned bone marrow–derived mesenchymal stem cells protect against brain injury after cardiac arrest are unknown.To this end,we established an in vitro co-culture model of bone marrow–derived mesenchymal stem cells and oxygen–glucose deprived primary neurons and found that hypoxic preconditioning enhanced the protective effect of bone marrow stromal stem cells against neuronal pyroptosis,possibly through inhibition of the MAPK and nuclear factor κB pathways.Subsequently,we transplanted hypoxia-preconditioned bone marrow–derived mesenchymal stem cells into the lateral ventricle after the return of spontaneous circulation in an 8-minute cardiac arrest rat model induced by asphyxia.The results showed that hypoxia-preconditioned bone marrow–derived mesenchymal stem cells significantly reduced cardiac arrest–induced neuronal pyroptosis,oxidative stress,and mitochondrial damage,whereas knockdown of the liver isoform of phosphofructokinase in bone marrow–derived mesenchymal stem cells inhibited these effects.To conclude,hypoxia-preconditioned bone marrow–derived mesenchymal stem cells offer a promising therapeutic approach for neuronal injury following cardiac arrest,and their beneficial effects are potentially associated with increased expression of the liver isoform of phosphofructokinase following hypoxic preconditioning.展开更多
AIM:To observe the effect of human umbilical cord mesenchymal stem cells(hUCMSCs)secretions on the relevant factors in mouse retinal astrocytes,and to investigate the effect of hUCMSCs on the expression of vascular en...AIM:To observe the effect of human umbilical cord mesenchymal stem cells(hUCMSCs)secretions on the relevant factors in mouse retinal astrocytes,and to investigate the effect of hUCMSCs on the expression of vascular endothelial growth factor-A(VEGF-A)and to observe the therapeutic effect on the mouse model of retinopathy of prematurity(ROP).METHODS:Cultured hUCMSCs and extracted exosomes from them and then retinal astrocytes were divided into control group and hypoxia group.MTT assay,flow cytometry,reverse transcription-polymerase chain reaction(RT-PCR)and Western blot were used to detect related indicators.Possible mechanisms by which hUCMSCs exosomes affect VEGF-A expression in hypoxia-induced mouse retinal astrocytes were explored.At last,the efficacy of exosomes of UCMSCs in a mouse ROP model was explored.Graphpad6 was used to comprehensively process data information.RESULTS:The secretion was successfully extracted from the culture supernatant of hUCMSCs by gradient ultracentrifugation.Reactive oxygen species(ROS)and hypoxia inducible factor-1α(HIF-1α)of mice retinal astrocytes under different hypoxia time and the expression level of VEGF-A protein and VEGF-A mRNA increased,and the ROP cell model was established after 6h of hypoxia.The secretions of medium and high concentrations of hUCMSCs can reduce ROS and HIF-1α,the expression levels of VEGF-A protein and VEGF-A mRNA are statistically significant and concentration dependent.Compared with the ROP cell model group,the expression of phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)/mammalian target of rapamycin(mTOR)signal pathway related factors in the hUCMSCs exocrine group is significantly decreased.The intravitreal injection of the secretions of medium and high concentrations of hUCMSCs can reduce VEGF-A and HIF-1αin ROP model tissues.HE staining shows that the number of retinal neovascularization in ROP mice decreases with the increase of the dose of hUCMSCs secretion.CONCLUSION:In a hypoxia induced mouse retinal astrocyte model,hUCMSCs exosomes are found to effectively reduce the expression of HIF-1αand VEGF-A,which are positively correlated with the concentration of hUCMSCs exosomes.HUCMSCs exosomes can effectively reduce the number of retinal neovascularization and the expression of HIF-1αand VEGF-A proteins in ROP mice,and are positively correlated with drug dosage.Besides,they can reduce the related factors on the PI3K/AKT/mTOR signaling pathway.展开更多
BACKGROUND Thin endometrium seriously affects endometrial receptivity,resulting in a significant reduction in embryo implantation,and clinical pregnancy and live birth rates,and there is no gold standard for treatment...BACKGROUND Thin endometrium seriously affects endometrial receptivity,resulting in a significant reduction in embryo implantation,and clinical pregnancy and live birth rates,and there is no gold standard for treatment.The main pathophysiological characteristics of thin endometrium are increased uterine arterial blood flow resistance,angiodysplasia,slow growth of the glandular epithelium,and low expression of vascular endothelial growth factor,resulting in endometrial epithelial cell(EEC)hypoxia and endometrial tissue aplasia.Human umbilical cord mesenchymal stem cells(HucMSCs)promote repair and regeneration of damaged endometrium by secreting microRNA(miRNA)-carrying exosomes.However,the initiation mechanism of HucMSCs to repair thin endometrium has not yet been clarified.AIM To determine the role of hypoxic-EEC-derived exosomes in function of HucMSCs and explore the potential mechanism.METHODS Exosomes were isolated from normal EECs(EEC-exs)and hypoxia-damaged EECs(EECD-exs),before characterization using Western blotting,nanoparticletracking analysis,and transmission electron microscopy.HucMSCs were cocultured with EEC-exs or EECD-exs and differentially expressed miRNAs were determined using sequencing.MiR-21-5p or miR-214-5p inhibitors or miR-21-3p or miR-214-5p mimics were transfected into HucMSCs and treated with a signal transducer and activator of transcription 3(STAT3)activator or STAT3 inhibitor.HucMSC migration was assessed by Transwell and wound healing assays.Differentiation of HucMSCs into EECs was assessed by detecting markers of stromal lineage(Vimentin and CD13)and epithelial cell lineage(CK19 and CD9)using Western blotting and immunofluorescence.The binding of the miRNAs to potential targets was validated by dual-luciferase reporter assay.RESULTS MiR-21-5p and miR-214-5p were lowly expressed in EECD-ex-pretreated HucMSCs.MiR-214-5p and miR-21-5p inhibitors facilitated the migratory and differentiative potentials of HucMSCs.MiR-21-5p and miR-214-5p targeted STAT3 and protein inhibitor of activated STAT3,respectively,and negatively regulated phospho-STAT3.MiR-21-5p-and miR-214-5p-inhibitor-induced promotive effects on HucMSC function were reversed by STAT3 inhibition.MiR-21-5p and miR-214-5p overexpression repressed HucMSC migration and differentiation,while STAT3 activation reversed these effects.CONCLUSION Low expression of miR-21-5p/miR-214-5p in hypoxic-EEC-derived exosomes promotes migration and differentiation of HucMSCs into EECs via STAT3 signaling.Exosomal miR-214-5p/miR-21-5p may function as valuable targets for thin endometrium.展开更多
Objective:To investigate the effects of exosomes derived from human umbilical cord mesenchymal stem cells(hUC-MSC)on the proliferation and invasion capacities of uterine fibroblast cells.Methods:Exosomes were isolated...Objective:To investigate the effects of exosomes derived from human umbilical cord mesenchymal stem cells(hUC-MSC)on the proliferation and invasion capacities of uterine fibroblast cells.Methods:Exosomes were isolated from the hUC-MSC culture medium via ultracentrifugation.The morphology,particle size,and surface markers of the hUC-MSC-derived exosomes(hUC-MSC-exo)were characterized using transmission electron microscopy(TEM),nanoparticle tracking analysis(NTA),and Western blotting.The impact of the exosomes on uterine fibroblast proliferation and invasion was assessed using the CCK-8 proliferation assay and Transwell invasion assays.Results:The exosomes exhibited a typical bilayer membrane structure with a diameter of 100–150 nm,and their average particle size was approximately 130 nm.The zeta potential was around-33 mV.Specific exosome markers,including CD9,TSG101,and CD63,were prominently expressed.Functionally,hUC-MSC-exo significantly inhibited the proliferation and invasion of uterine fibroblast cells.Conclusion:This study reveals the inhibitory effects of hUC-MSC-derived exosomes on uterine fibroblast proliferation and invasion,highlighting their potential therapeutic value.These findings provide new insights into the mechanisms underlying uterine scarring and suggest novel approaches for pharmacological treatment.展开更多
Pulmonary fibrosis significantly contributes to the pathogenesis of acute respiratory distress syndrome(ARDS),markedly increasing patient mortality.Despite the established anti-fibrotic effects of mesenchymal stem cel...Pulmonary fibrosis significantly contributes to the pathogenesis of acute respiratory distress syndrome(ARDS),markedly increasing patient mortality.Despite the established anti-fibrotic effects of mesenchymal stem cells(MSCs),numerous challenges hinder their clinical application.A recent study demon-strated that microvesicles(MVs)from MSCs(MSC-MVs)could attenuate ARDS-related pulmonary fibrosis and enhance lung function via hepatocyte growth factor mRNA transcription.This discovery presents a promising strategy for managing ARDS-associated pulmonary fibrosis.This article initially examines the safety and efficacy of MSCs from both basic science and clinical perspectives,subsequently exploring the potential and obstacles of employing MSC-MVs as a novel therapeutic approach.Additionally,it provides perspectives on future research into the application of MSC-MVs in ARDS-associated pulmonary fi-brosis.展开更多
In this article,we evaluate the comparative efficacy and safety of mesenchymal stem cells(MSCs)derived from bone marrow(BM-MSCs)and umbilical cord(UC-MSCs)in the treatment of heart failure and myocardial infarction.MS...In this article,we evaluate the comparative efficacy and safety of mesenchymal stem cells(MSCs)derived from bone marrow(BM-MSCs)and umbilical cord(UC-MSCs)in the treatment of heart failure and myocardial infarction.MSCs have gained importance as living bio drug due to their regenerative potential,with BM-MSCs being the most extensively studied.However,UC-MSCs offer unique advantages,such as noninvasive collection and fewer ethical concerns.This systematic review and meta-analysis summarizes data from 13 randomized controlled trials,which included a total of 693 patients.Their study shows that UC-MSCs significantly improved left ventricular ejection fraction by 5.08%at 6 months and 2.78%at 12 months compared with controls,while BM-MSCs showed no significant effect.Neither cell type showed significant changes in 6-minute walk distance.In addition,UC-MSCs and BM-MSCs had comparable safety profiles,with no significant differences in major adverse cardiac events,except for a lower rehospitalization rate observed with BM-MSCs.These results position UC-MSCs as a promising alternative in MSC-based therapies for cardiac disease,offering potential improvements in cardiac function while maintaining a favorable safety profile.Future research should focus on optimizing adminis-tration protocols and further exploring the long-term benefits and mechanisms of UC-MSCs in cardiac repair.展开更多
BACKGROUND We investigated the efficacy of intra-articular injection of human umbilical cord mesenchymal stem cells(hUC-MSCs)for the treatment of osteoarthritis(OA)progression in the knee joint.Although many experimen...BACKGROUND We investigated the efficacy of intra-articular injection of human umbilical cord mesenchymal stem cells(hUC-MSCs)for the treatment of osteoarthritis(OA)progression in the knee joint.Although many experimental studies of hUC-MSCs have been published,these studies have mainly used fetal bovine serumcontaining cultures of hUC-MSCs;serum-free cultures generally avoid the shortcomings of serum-containing cultures and are not subject to ethical limitations,have a wide range of prospects for clinical application,and provide a basis or animal experimentation for clinical experiments.AIM To study the therapeutic effects of serum-free hUC-MSCs(N-hUCMSCs)in a mouse model of knee OA.METHODS Fifty-five male C57BL/6 mice were randomly divided into six groups:The blank control group,model control group,serum-containing hUC-MSCs(S-hUCMSC)group,N-hUCMSC group and hyaluronic acid(HA)group.After 9 weeks of modeling,the serum levels of interleukin(IL)-1β and IL-1 were determined.Hematoxylin-eosin staining was used to observe the cartilage tissue,and the Mankin score was determined.Immunohistochemistry and western blotting were used to determine the expression of collagen type II,matrix metalloproteinase(MMP)-1 and MMP-13.RESULTS The Mankin score and serum IL-1 and IL-1β and cartilage tissue MMP-1 and MMP-13 expression were significantly greater in the experimental group than in the blank control group(P<0.05).Collagen II expression in the experimental group was significantly lower than that in the blank control group(P<0.05).The Mankin score and serum IL-1 and IL-1β and cartilage tissue MMP-1 and MMP-13 levels the experimental group were lower than those in the model control group(P<0.05).Collagen II expression in the experimental group was significantly greater than that in the model control group(P<0.05).CONCLUSION N-hUCMSC treatment significantly alleviate the pathological damage caused by OA.The treatment effects of the ShUCMSC group and HA group were similar.展开更多
BACKGROUND Necrotizing enterocolitis(NEC)is a severe gastrointestinal disease that affects premature infants.Although mounting evidence supports the therapeutic effect of exosomes on NEC,the underlying mechanisms rema...BACKGROUND Necrotizing enterocolitis(NEC)is a severe gastrointestinal disease that affects premature infants.Although mounting evidence supports the therapeutic effect of exosomes on NEC,the underlying mechanisms remain unclear.AIM To investigate the mechanisms underlying the regulation of inflammatory response and intestinal barrier function by umbilical cord mesenchymal stem cell(UCMSCs)exosomes,as well as their potential in alleviating NEC in neonatal mice.METHODS NEC was induced in 5-d-old C57BL/6 pups through hypoxia and gavage feeding of formula containing lipopolysaccharide(LPS),after which the mice received human UCMSC exosomes(hUCMSC-exos).The control mice were allowed to breastfeed with their dams.Ileal tissues were collected from the mice and analyzed by histopathology and immunoblotting.Colon tissues were collected from NEC neonates and analyzed by immunofluorescence.Molecular biology and cell culture approaches were employed to study the related mechanisms in intestinal epithelial cells.RESULTS We found that autophagy is overactivated in intestinal epithelial cells during NEC,resulting in reduced expression of tight junction proteins and an increased inflammatory response.The ability of hUCMSC-exos to ameliorate NEC in a mouse model was dependent on decreased intestinal autophagy.We also showed that hUCMSC-exos alleviate the inflammatory response and increase migration ability in intestinal epithelial cells induced by LPS.CONCLUSION These results contribute to a better understanding of the protective mechanisms of hUCMSC-exos against NEC and provide a new theoretical and experimental foundation for NEC treatment.These findings also enhance our understanding of the role of the autophagy mechanism in NEC,offering potential avenues for identifying new therapeutic targets.展开更多
BACKGROUND The gold standard of care for patients with severe peripheral nerve injury is autologous nerve grafting;however,autologous nerve grafts are usually limited for patients because of the limited number of auto...BACKGROUND The gold standard of care for patients with severe peripheral nerve injury is autologous nerve grafting;however,autologous nerve grafts are usually limited for patients because of the limited number of autologous nerve sources and the loss of neurosensory sensation in the donor area,whereas allogeneic or xenografts are even more limited by immune rejection.Tissue-engineered peripheral nerve scaffolds,with the morphology and structure of natural nerves and complex biological signals,hold the most promise as ideal peripheral nerve“replacements”.AIM To prepare allogenic peripheral nerve scaffolds using a low-toxicity decellularization method,and use human umbilical cord mesenchymal stem cells(hUCMSCs)as seed cells to cultivate scaffold-cell complexes for the repair of injured peripheral nerves.METHODS After obtaining sciatic nerves from New Zealand rabbits,an optimal acellular scaffold preparation scheme was established by mechanical separation,varying lyophilization cycles,and trypsin and DNase digestion at different times.The scaffolds were evaluated by hematoxylin and eosin(HE)and luxol fast blue(LFB)staining.The maximum load,durability,and elastic modulus of the acellular scaffolds were assessed using a universal material testing machine.The acellular scaffolds were implanted into the dorsal erector spinae muscle of SD rats and the scaffold degradation and systemic inflammatory reactions were observed at 3 days,1 week,3 weeks,and 6 weeks following surgery to determine the histocompatibility between xenografts.The effect of acellular scaffold extracts on fibroblast proliferation was assessed using an MTT assay to measure the cytotoxicity of the scaffold residual reagents.In addition,the umbilical cord from cesarean section fetuses was collected,and the Wharton’s jelly(WJ)was separated into culture cells and confirm the osteogenic and adipogenic differentiation of mesenchymal stem cells(MSCs)and hUC-MSCs.The cultured cells were induced to differentiate into Schwann cells by the antioxidant-growth factor induction method,and the differentiated cells and the myelinogenic properties were identified.RESULTS The experiments effectively decellularized the sciatic nerve of the New Zealand rabbits.After comparing the completed acellular scaffolds among the groups,the optimal decellularization preparation steps were established as follows:Mechanical separation of the epineurium,two cycles of lyophilization-rewarming,trypsin digestion for 5 hours,and DNase digestion for 10 hours.After HE staining,no residual nuclear components were evident on the scaffold,whereas the extracellular matrix remained intact.LFB staining showed a significant decrease in myelin sheath composition of the scaffold compared with that before preparation.Biomechanical testing revealed that the maximum tensile strength,elastic modulus,and durability of the acellular scaffold were reduced compared with normal peripheral nerves.Based on the histocompatibility test,the immune response of the recipient SD rats to the scaffold New Zealand rabbits began to decline3 weeks following surgery,and there was no significant rejection after 6 weeks.The MTT assay revealed that the acellular reagent extract had no obvious effects on cell proliferation.The cells were successfully isolated,cultured,and passaged from human umbilical cord WJ by MSC medium,and their ability to differentiate into Schwann-like cells was demonstrated by morphological and immunohistochemical identification.The differentiated cells could also myelinate in vitro.CONCLUSION The acellular peripheral nerve scaffold with complete cell removal and intact matrix may be prepared by combining lyophilization and enzyme digestion.The resulting scaffold exhibited good histocompatibility and low cytotoxicity.In addition,hUC-MSCs have the potential to differentiate into Schwann-like cells with myelinogenic ability following in vitro induction.展开更多
Human umbilical cord(UC)is a promising source of mesenchymal stem cells(MSCs).Apart from their prominent advantages,such as a painless collection procedure and faster self-renewal,UC-MSCs have shown the ability to dif...Human umbilical cord(UC)is a promising source of mesenchymal stem cells(MSCs).Apart from their prominent advantages,such as a painless collection procedure and faster self-renewal,UC-MSCs have shown the ability to differentiate into three germ layers,to accumulate in damaged tissue or inflamed regions,to promote tissue repair,and to modulate immune response.There are diverse protocols and culture methods for the isolation of MSCs from the various compartments of UC,such as Wharton’s jelly,vein,arteries,UC lining and subamnion and perivascular regions.In this review,we give a brief introduction to various compartments of UC as a source of MSCs and emphasize the potential clinical utility of UC-MSCs for regenerative medicine and immunotherapy.展开更多
Human placenta-derived mononuclear cells (MNC) were isolated by a Percoll density gradient and cultured in mesenchymal stem cell (MSC) maintenance medium. The homogenous layer of adherent cells exhibited a typical...Human placenta-derived mononuclear cells (MNC) were isolated by a Percoll density gradient and cultured in mesenchymal stem cell (MSC) maintenance medium. The homogenous layer of adherent cells exhibited a typical fibroblastlike morphology, a large expansive potential, and cell cycle characteristics including a subset of quiescent cells. In vitro differentiation assays showed the tripotential differentiation capacity of these cells toward adipogenic, osteogenic and chondrogenic lineages. Flow cytometry analyses and immunocytochemistry stain showed that placental MSC was a homogeneous cell population devoid of hematopoietic cells, which uniformly expressed CD29, CD44, CD73, CD105, CD166, laminin, fibronectin and vimentin while being negative for expression of CD31, CD34, CD45 and m-smooth muscle actin. Most importantly, immuno-phenotypic analyses demonstrated that these cells expressed class Ⅰ major histocompatibility complex (MHC-I), but they did not express MHC-Ⅱ molecules. Additionally these cells could suppress umbilical cord blood (UCB) lymphocytes proliferation induced by cellular or nonspecific mitogenic stimuli. This strongly implies that they may have potential application in allograft transplantation. Since placenta and UCB are homogeneous, the MSC derived from human placenta can be transplanted combined with hematopoietic stem cells (HSC) from UCB to reduce the potential graft-versus-host disease (GVHD) in recipients.展开更多
基金Supported by Higher Education Commission,Islamabad,Pakistan grant,No.20-17590/NRPU/R&D/HEC/20212021.
文摘BACKGROUND Stem cells are undifferentiated cells that possess the potential for self-renewal with the capacity to differentiate into multiple lineages.In humans,their limited numbers pose a challenge in fulfilling the necessary demands for the regeneration and repair of damaged tissues or organs.Studies suggested that mesenchymal stem cells(MSCs),necessary for repair and regeneration via transplantation,require doses ranging from 10 to 400 million cells.Furthermore,the limited expansion of MSCs restricts their therapeutic application.AIM To optimize a novel protocol to achieve qualitative and quantitative expansion of MSCs to reach the targeted number of cells for cellular transplantation and minimize the limitations in stem cell therapy protocols.METHODS Human umbilical cord(hUC)tissue derived MSCs were obtained and re-cultured.These cultured cells were subjected to the following evaluation pro-cedures:Immunophenotyping,immunocytochemical staining,trilineage differentiation,population doubling time and number,gene expression markers for proliferation,cell cycle progression,senescence-associatedβ-galactosidase assay,human telomerase reverse transcriptase(hTERT)expression,mycoplasma,cytomegalovirus and endotoxin detection.RESULTS Analysis of pluripotent gene markers Oct4,Sox2,and Nanog in recultured hUC-MSC revealed no significant differences.The immunophenotypic markers CD90,CD73,CD105,CD44,vimentin,CD29,Stro-1,and Lin28 were positively expressed by these recultured expanded MSCs,and were found negative for CD34,CD11b,CD19,CD45,and HLA-DR.The recultured hUC-MSC population continued to expand through passage 15.Proliferative gene expression of Pax6,BMP2,and TGFb1 showed no significant variation between recultured hUC-MSC groups.Nevertheless,a significant increase(P<0.001)in the mitotic phase of the cell cycle was observed in recultured hUC-MSCs.Cellular senescence markers(hTERT expression andβ-galactosidase activity)did not show any negative effect on recultured hUC-MSCs.Additionally,quality control assessments consistently confirmed the absence of mycoplasma,cytomegalovirus,and endotoxin contamination.CONCLUSION This study proposes the development of a novel protocol for efficiently expanding stem cell population.This would address the growing demand for larger stem cell doses needed for cellular transplantation and will significantly improve the feasibility of stem cell based therapies.
文摘AIM:To investigate the efficacy and the safety of umbilical cord derived mesenchymal stem cell(UC-MSC)implantation in patients with retinitis pigmentosa(RP).METHODS:This prospective,single-center,phase 3 clinical study enrolled 124 eyes of 82 RP patients.The patients received 5 million UC-MSCs to the suprachoroidal area with a surgical procedure.Patients were evaluated on the 1st day,1st,and 6th months postoperatively.Best corrected visual acuity(BCVA),anterior segment and fundus examinations,color photography,optical coherence tomography(OCT),and visual field(VF)tests were carried out at each visit.Fundus fluorescein angiography(FFA)and multifocal electroretinography(mfERG)recordings were performed at the end of the 6th month.Ocular and systemic adverse events of the surgical procedure were also noted.RESULTS:All of the 82 patients completed the 6-month follow-up period.None of them had any serious systemic or ocular complications.There were statistically significant improvements in BCVA and VF during the study(all P<0.05).The amplitudes of the P1 waves in the central areas showed significant improvements in mfERG recordings.There were also significant increases in implicit times of P1 waves in the central areas.CONCLUSION:Suprachoroidal administration of UC-MSCs has beneficial effect on BCVA,VF,and mfERG measurements during the 6-month follow-up period.Cell mediated therapy based on the secretion of growth factors(GFs)seems to be an effective and safe option for degenerative retinal diseases.
文摘BACKGROUND Peripheral nerve injury can occur as a result of trauma or disease and carries significant morbidity including sensory and motor loss.The body has limited ability for nerve regeneration and functional recovery.Left untreated,nerve lesions can cause lifelong disability.Traditional treatment options such as neurorrhaphy and neurolysis have high failure rates.Surgical reconstruction with autograft carries donor site morbidity and often provide suboptimal results.Mesenchymal stem cells(MSCs)are known to have promising regenerative potential and have gained attention as a treatment option for nerve lesions.It is however,unclear whether it can be effectively used for nerve regeneration.AIM To evaluate the evidence for the use of human umbilical cord derived MSCs(UCMSCs)in peripheral nerve regeneration.METHODS We carried out a systematic literature review in accordance with the PRISMA protocol.A literature search was performed from conception to September 2019 using PubMed,EMBASE and Web of Science.The results of eligible studies were appraised.A risk of bias analysis was carried out using Cochrane’s RoB 2.0 tool.RESULTS Fourteen studies were included in this review.A total of 279 subjects,including both human and animal were treated with UCMSCs.Four studies obtained UCMSCs from a third-party source and the remainder were harvested by the investigators.Out of the 14 studies,thirteen conducted xenogenic transplantation into nerve injury models.All studies reported significant improvement in nerve regeneration in the UCMSC treated groups compared with the various different controls and untreated groups.CONCLUSION The evidence summarised in this PRISMA systematic review of in vivo studies supports the notion that human UCMSC transplantation is an effective treatment option for peripheral nerve injury.
文摘BACKGROUND Zinc(Zn)is the second most abundant trace element after Fe,present in the human body.It is frequently reported in association with cell growth and proliferation,and its deficiency is considered to be a major disease contributing factor.AIM To determine the effect of Zn on in vitro growth and proliferation of human umbilical cord(hUC)-derived mesenchymal stem cells(MSCs).METHODS hUC-MSCs were isolated from human umbilical cord tissue and characterized based on immunocytochemistry,immunophenotyping,and tri-lineage differentiation.The impact of Zn on cytotoxicity and proliferation was determined by MTT and Alamar blue assay.To determine the effect of Zn on population doubling time(PDT),hUC-MSCs were cultured in media with and without Zn for several passages.An in vitro scratch assay was performed to analyze the effect of Zn on the wound healing and migration capability of hUC-MSCs.A cell adhesion assay was used to test the surface adhesiveness of hUC-MSCs.Transcriptional analysis of genes involved in the cell cycle,proliferation,migration,and selfrenewal of hUC-MSCs was performed by quantitative real-time polymerase chain reaction.The protein expression of Lin28,a pluripotency marker,was analyzed by immunocytochemistry.RESULTS Zn at lower concentrations enhanced the rate of proliferation but at higher concentrations(>100μM),showed concentration dependent cytotoxicity in hUC-MSCs.hUC-MSCs treated with Zn exhibited a significantly greater healing and migration rate compared to untreated cells.Zn also increased the cell adhesion rate,and colony forming efficiency(CFE).In addition,Zn upregulated the expression of genes involved in the cell cycle(CDC20,CDK1,CCNA2,CDCA2),proliferation(transforming growth factorβ1,GDF5,hypoxia-inducible factor 1α),migration(CXCR4,VCAM1,VEGF-A),and self-renewal(OCT4,SOX2,NANOG)of hUC-MSCs.Expression of Lin28 protein was significantly increased in cells treated with Zn.CONCLUSION Our findings suggest that zinc enhances the proliferation rate of hUC-MSCs decreasing the PDT,and maintaining the CFE.Zn also enhances the cell adhesion,migration,and self-renewal of hUC-MSCs.These results highlight the essential role of Zn in cell growth and development.
文摘<strong>Background:</strong> The aim of this study was to evaluate vision related quality of life (VRQoL) in patients with retinitis pigmentosa (RP) after suprachoroidal umbilical cord derived mesenchymal stem cell (UC-MSC) treatment. <strong>Methods:</strong> The patients were evaluated regarding to the VRQoL before the treatment and at the end of the first year. The study was performed in an affiliated hospital of a university between 2018 and 2020. The patients were operated by a single surgeon and evaluated at baseline and at first, sixth and twelfth month after stem cell implantation. To assess patients’ subjective visual situation, we used Impact of Vision Impairment (IVI) Profile 28-item questionnaire. It basically evaluated vision-related activities in three subscales: “reading and accessing information”, “mobility and independence” and “emotional well-being”. This test is established to assess VRQoL in low vision patients. <strong>Results:</strong> A total of 123 people, ranging in age from 18 to 48 years, participated in the study and 43.9% (n = 54) were women. The study patients were followed up for one year and the questionnaire was filled by patients at baseline and one year after surgery. In all groups, no difficulty was observed in understanding the questionnaire. The results showed significant improvements in VRQoL after stem cell treatment (p < 0.05). The analysis of each subscale score including “reading and accessing information”, “mobility and independence” and “emotional well-being” before and after treatment showed significant improvements in all subscale scores (p < 0.05). <strong>Conclusions:</strong> IVI 28 item questionnaire seems to be an effective test for the assessment of VRQoL in low vision patients. The suprachoroidal implantation of UC-MSC for the treatment of RP can improve the quality of life of these patients.
文摘Endometrial injury caused by repeated uterine procedures,infections,inflammation,or uterine artery dysfunction can deplete endometrial stem/progenitor cells and impair regeneration,thereby diminishing endometrial receptivity and evidently lowering the live birth,clinical pregnancy,and embryo implantation rates.Currently,safe and effective clinical treatment methods or gene-targeted therapies are unavailable,especially for severe endometrial injury.Umbilical cord mesenchymal stem cells and their extracellular vesicles are characterized by their simple collection,rapid proliferation,low immunogenicity,and tumorigenicity,along with their involvement in regulating angiogenesis,immune response,cell apoptosis and proliferation,inflammatory response,and fibrosis,Therefore,these cells and vesicles hold broad potential for application in endometrial repair.This article reviewed recent research on human umbilical cord mesenchymal stem cells as well as their extracellular vesicles in repairing endometrial injury.
基金supported by the National Key Research and Development Project of Stem Cell and Transformation Research,No.2019YFA0112100(to SF)the National Natural Science Foundation of China No.81930070(to SF)+1 种基金Multi-fund Investment Key Projects,No.21JCZDJC01100(to ZW)the Tianjin Science and Technology Planning Project,No.22JRRCRC00010(to SF)。
文摘Complete transverse injury of peripheral nerves is challenging to treat.Exosomes secreted by human umbilical cord mesenchymal stem cells are considered to play an important role in intercellular communication and regulate tissue regeneration.In previous studies,a collagen/hyaluronic acid sponge was shown to provide a suitable regeneration environment for Schwann cell proliferation and to promote axonal regeneration.This three-dimensional(3D)composite conduit contains a collagen/hyaluronic acid inner sponge enclosed in an electrospun hollow poly(lactic-co-glycolic acid)tube.However,whether there is a synergy between the 3D composite conduit and exosomes in the repair of peripheral nerve injury remains unknown.In this study,we tested a comprehensive strategy for repairing long-gap(10 mm)peripheral nerve injury that combined the 3D composite conduit with human umbilical cord mesenchymal stem cell-derived exosomes.Repair effectiveness was evaluated by sciatic functional index,sciatic nerve compound muscle action potential recording,recovery of muscle mass,measuring the cross-sectional area of the muscle fiber,Masson trichrome staining,and transmission electron microscopy of the regenerated nerve in rats.The results showed that transplantation of the 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes promoted peripheral nerve regeneration and restoration of motor function,similar to autograft transplantation.More CD31-positive endothelial cells were observed in the regenerated nerve after transplantation of the loaded conduit than after transplantation of the conduit without exosomes,which may have contributed to the observed increase in axon regeneration and distal nerve reconnection.Therefore,the use of a 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes represents a promising cell-free therapeutic option for the treatment of peripheral nerve injury.
文摘Pulmonary diseases across all ages threaten millions of people and have emerged as one of the major public health issues worldwide.For diverse disease con-ditions,the currently available approaches are focused on alleviating clinical symptoms and delaying disease progression but have not shown significant therapeutic effects in patients with lung diseases.Human umbilical cord-derived mesenchymal stem cells(UC-MSCs)isolated from the human UC have the capacity for self-renewal and multilineage differentiation.Moreover,in recent years,these cells have been demonstrated to have unique advantages in the treatment of lung diseases.We searched the Public Clinical Trial Database and found 55 clinical trials involving UC-MSC therapy for pulmonary diseases,including coronavirus disease 2019,acute respiratory distress syndrome,bron-chopulmonary dysplasia,chronic obstructive pulmonary disease,and pulmonary fibrosis.In this review,we summarize the characteristics of these registered clinical trials and relevant published results and explore in depth the challenges and opportunitiesfaced in clinical application.Moreover,the underlying mole-cular mechanisms involved in UC-MSC-based therapy for pulmonary diseases are also analyzed in depth.In brief,this comprehensive review and detailed analysis of these clinical trials can be expected to provide a scientific reference for future large-scale clinical application.
基金supported by the tenth batch of"3221"industrial innovation and scientific research projects in Bengbu City(beng talent[2020]No.8)the 2021 Bengbu Medical College Science and Technology Project[Natural Science,Project Number:2021byzd217].
文摘Objective Our previous studies established that microRNA(miR)-451 from human umbilical cord mesenchymal stem cell-derived exosomes(hUC-MSC-Exos)alleviates acute lung injury(ALI).This study aims to elucidate the mechanisms by which miR-451 in hUC-MSC-Exos reduces ALI by modulating macrophage autophagy.Methods Exosomes were isolated from hUC-MSCs.Severe burn-induced ALI rat models were treated with hUC-MSC-Exos carrying the miR-451 inhibitor.Hematoxylin-eosin staining evaluated inflammatory injury.Enzyme-linked immunosorbnent assay measured lipopolysaccharide(LPS),tumor necrosis factor-α,and interleukin-1βlevels.qRT-PCR detected miR-451 and tuberous sclerosis complex 1(TSC1)expressions.The regulatory role of miR-451 on TSC1 was determined using a dual-luciferase reporter system.Western blotting determined TSC1 and proteins related to the mammalian target of rapamycin(mTOR)pathway and autophagy.Immunofluorescence analysis was conducted to examine exosomes phagocytosis in alveolar macrophages and autophagy level.Results hUC-MSC-Exos with miR-451 inhibitor reduced burn-induced ALI and promoted macrophage autophagy.MiR-451 could be transferred from hUC-MSCs to alveolar macrophages via exosomes and directly targeted TSC1.Inhibiting miR-451 in hUC-MSC-Exos elevated TSC1 expression and inactivated the mTOR pathway in alveolar macrophages.Silencing TSC1 activated mTOR signaling and inhibited autophagy,while TSC1 knockdown reversed the autophagy from the miR-451 inhibitor-induced.Conclusion miR-451 from hUC-MSC exosomes improves ALI by suppressing alveolar macrophage autophagy through modulation of the TSC1/mTOR pathway,providing a potential therapeutic strategy for ALI.
基金supported by the Natural Science Fund of Fujian Province,No.2020J011058(to JK)the Project of Fujian Provincial Hospital for High-level Hospital Construction,No.2020HSJJ12(to JK)+1 种基金the Fujian Provincial Finance Department Special Fund,No.(2021)848(to FC)the Fujian Provincial Major Scientific and Technological Special Projects on Health,No.2022ZD01008(to FC).
文摘Cardiac arrest can lead to severe neurological impairment as a result of inflammation,mitochondrial dysfunction,and post-cardiopulmonary resuscitation neurological damage.Hypoxic preconditioning has been shown to improve migration and survival of bone marrow–derived mesenchymal stem cells and reduce pyroptosis after cardiac arrest,but the specific mechanisms by which hypoxia-preconditioned bone marrow–derived mesenchymal stem cells protect against brain injury after cardiac arrest are unknown.To this end,we established an in vitro co-culture model of bone marrow–derived mesenchymal stem cells and oxygen–glucose deprived primary neurons and found that hypoxic preconditioning enhanced the protective effect of bone marrow stromal stem cells against neuronal pyroptosis,possibly through inhibition of the MAPK and nuclear factor κB pathways.Subsequently,we transplanted hypoxia-preconditioned bone marrow–derived mesenchymal stem cells into the lateral ventricle after the return of spontaneous circulation in an 8-minute cardiac arrest rat model induced by asphyxia.The results showed that hypoxia-preconditioned bone marrow–derived mesenchymal stem cells significantly reduced cardiac arrest–induced neuronal pyroptosis,oxidative stress,and mitochondrial damage,whereas knockdown of the liver isoform of phosphofructokinase in bone marrow–derived mesenchymal stem cells inhibited these effects.To conclude,hypoxia-preconditioned bone marrow–derived mesenchymal stem cells offer a promising therapeutic approach for neuronal injury following cardiac arrest,and their beneficial effects are potentially associated with increased expression of the liver isoform of phosphofructokinase following hypoxic preconditioning.
基金Supported by Tianjin Key Medical Discipline Specialty Construction Project(No.TJXZDXK-016A)Science Foundation of Tianjin Eye Hospital(No.YKZD1901).
文摘AIM:To observe the effect of human umbilical cord mesenchymal stem cells(hUCMSCs)secretions on the relevant factors in mouse retinal astrocytes,and to investigate the effect of hUCMSCs on the expression of vascular endothelial growth factor-A(VEGF-A)and to observe the therapeutic effect on the mouse model of retinopathy of prematurity(ROP).METHODS:Cultured hUCMSCs and extracted exosomes from them and then retinal astrocytes were divided into control group and hypoxia group.MTT assay,flow cytometry,reverse transcription-polymerase chain reaction(RT-PCR)and Western blot were used to detect related indicators.Possible mechanisms by which hUCMSCs exosomes affect VEGF-A expression in hypoxia-induced mouse retinal astrocytes were explored.At last,the efficacy of exosomes of UCMSCs in a mouse ROP model was explored.Graphpad6 was used to comprehensively process data information.RESULTS:The secretion was successfully extracted from the culture supernatant of hUCMSCs by gradient ultracentrifugation.Reactive oxygen species(ROS)and hypoxia inducible factor-1α(HIF-1α)of mice retinal astrocytes under different hypoxia time and the expression level of VEGF-A protein and VEGF-A mRNA increased,and the ROP cell model was established after 6h of hypoxia.The secretions of medium and high concentrations of hUCMSCs can reduce ROS and HIF-1α,the expression levels of VEGF-A protein and VEGF-A mRNA are statistically significant and concentration dependent.Compared with the ROP cell model group,the expression of phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)/mammalian target of rapamycin(mTOR)signal pathway related factors in the hUCMSCs exocrine group is significantly decreased.The intravitreal injection of the secretions of medium and high concentrations of hUCMSCs can reduce VEGF-A and HIF-1αin ROP model tissues.HE staining shows that the number of retinal neovascularization in ROP mice decreases with the increase of the dose of hUCMSCs secretion.CONCLUSION:In a hypoxia induced mouse retinal astrocyte model,hUCMSCs exosomes are found to effectively reduce the expression of HIF-1αand VEGF-A,which are positively correlated with the concentration of hUCMSCs exosomes.HUCMSCs exosomes can effectively reduce the number of retinal neovascularization and the expression of HIF-1αand VEGF-A proteins in ROP mice,and are positively correlated with drug dosage.Besides,they can reduce the related factors on the PI3K/AKT/mTOR signaling pathway.
基金Supported by the National High Level Hospital Clinical Research Funding,No.2022-PUMCH-B-080 and No.2022-PUMCH-C-064.
文摘BACKGROUND Thin endometrium seriously affects endometrial receptivity,resulting in a significant reduction in embryo implantation,and clinical pregnancy and live birth rates,and there is no gold standard for treatment.The main pathophysiological characteristics of thin endometrium are increased uterine arterial blood flow resistance,angiodysplasia,slow growth of the glandular epithelium,and low expression of vascular endothelial growth factor,resulting in endometrial epithelial cell(EEC)hypoxia and endometrial tissue aplasia.Human umbilical cord mesenchymal stem cells(HucMSCs)promote repair and regeneration of damaged endometrium by secreting microRNA(miRNA)-carrying exosomes.However,the initiation mechanism of HucMSCs to repair thin endometrium has not yet been clarified.AIM To determine the role of hypoxic-EEC-derived exosomes in function of HucMSCs and explore the potential mechanism.METHODS Exosomes were isolated from normal EECs(EEC-exs)and hypoxia-damaged EECs(EECD-exs),before characterization using Western blotting,nanoparticletracking analysis,and transmission electron microscopy.HucMSCs were cocultured with EEC-exs or EECD-exs and differentially expressed miRNAs were determined using sequencing.MiR-21-5p or miR-214-5p inhibitors or miR-21-3p or miR-214-5p mimics were transfected into HucMSCs and treated with a signal transducer and activator of transcription 3(STAT3)activator or STAT3 inhibitor.HucMSC migration was assessed by Transwell and wound healing assays.Differentiation of HucMSCs into EECs was assessed by detecting markers of stromal lineage(Vimentin and CD13)and epithelial cell lineage(CK19 and CD9)using Western blotting and immunofluorescence.The binding of the miRNAs to potential targets was validated by dual-luciferase reporter assay.RESULTS MiR-21-5p and miR-214-5p were lowly expressed in EECD-ex-pretreated HucMSCs.MiR-214-5p and miR-21-5p inhibitors facilitated the migratory and differentiative potentials of HucMSCs.MiR-21-5p and miR-214-5p targeted STAT3 and protein inhibitor of activated STAT3,respectively,and negatively regulated phospho-STAT3.MiR-21-5p-and miR-214-5p-inhibitor-induced promotive effects on HucMSC function were reversed by STAT3 inhibition.MiR-21-5p and miR-214-5p overexpression repressed HucMSC migration and differentiation,while STAT3 activation reversed these effects.CONCLUSION Low expression of miR-21-5p/miR-214-5p in hypoxic-EEC-derived exosomes promotes migration and differentiation of HucMSCs into EECs via STAT3 signaling.Exosomal miR-214-5p/miR-21-5p may function as valuable targets for thin endometrium.
基金supported by the Medical Research Project of Foshan Health Bureau(20220093)Project of Foshan Science and Technology(2220001003766)Foshan Key Fields of Science and Technology(2020001005861).
文摘Objective:To investigate the effects of exosomes derived from human umbilical cord mesenchymal stem cells(hUC-MSC)on the proliferation and invasion capacities of uterine fibroblast cells.Methods:Exosomes were isolated from the hUC-MSC culture medium via ultracentrifugation.The morphology,particle size,and surface markers of the hUC-MSC-derived exosomes(hUC-MSC-exo)were characterized using transmission electron microscopy(TEM),nanoparticle tracking analysis(NTA),and Western blotting.The impact of the exosomes on uterine fibroblast proliferation and invasion was assessed using the CCK-8 proliferation assay and Transwell invasion assays.Results:The exosomes exhibited a typical bilayer membrane structure with a diameter of 100–150 nm,and their average particle size was approximately 130 nm.The zeta potential was around-33 mV.Specific exosome markers,including CD9,TSG101,and CD63,were prominently expressed.Functionally,hUC-MSC-exo significantly inhibited the proliferation and invasion of uterine fibroblast cells.Conclusion:This study reveals the inhibitory effects of hUC-MSC-derived exosomes on uterine fibroblast proliferation and invasion,highlighting their potential therapeutic value.These findings provide new insights into the mechanisms underlying uterine scarring and suggest novel approaches for pharmacological treatment.
文摘Pulmonary fibrosis significantly contributes to the pathogenesis of acute respiratory distress syndrome(ARDS),markedly increasing patient mortality.Despite the established anti-fibrotic effects of mesenchymal stem cells(MSCs),numerous challenges hinder their clinical application.A recent study demon-strated that microvesicles(MVs)from MSCs(MSC-MVs)could attenuate ARDS-related pulmonary fibrosis and enhance lung function via hepatocyte growth factor mRNA transcription.This discovery presents a promising strategy for managing ARDS-associated pulmonary fibrosis.This article initially examines the safety and efficacy of MSCs from both basic science and clinical perspectives,subsequently exploring the potential and obstacles of employing MSC-MVs as a novel therapeutic approach.Additionally,it provides perspectives on future research into the application of MSC-MVs in ARDS-associated pulmonary fi-brosis.
基金Supported by National High Level Hospital Clinical Research Funding Project,No.BJ-2023-206.
文摘In this article,we evaluate the comparative efficacy and safety of mesenchymal stem cells(MSCs)derived from bone marrow(BM-MSCs)and umbilical cord(UC-MSCs)in the treatment of heart failure and myocardial infarction.MSCs have gained importance as living bio drug due to their regenerative potential,with BM-MSCs being the most extensively studied.However,UC-MSCs offer unique advantages,such as noninvasive collection and fewer ethical concerns.This systematic review and meta-analysis summarizes data from 13 randomized controlled trials,which included a total of 693 patients.Their study shows that UC-MSCs significantly improved left ventricular ejection fraction by 5.08%at 6 months and 2.78%at 12 months compared with controls,while BM-MSCs showed no significant effect.Neither cell type showed significant changes in 6-minute walk distance.In addition,UC-MSCs and BM-MSCs had comparable safety profiles,with no significant differences in major adverse cardiac events,except for a lower rehospitalization rate observed with BM-MSCs.These results position UC-MSCs as a promising alternative in MSC-based therapies for cardiac disease,offering potential improvements in cardiac function while maintaining a favorable safety profile.Future research should focus on optimizing adminis-tration protocols and further exploring the long-term benefits and mechanisms of UC-MSCs in cardiac repair.
基金Supported by the Cultivated by Outstanding Young Scientific and Technological Innovation and Entrepreneurship Talents in Nanning City,China,No.RC20210107and Self-Funded Research Project by Guangxi Health Commission,China,No.Z20191090.
文摘BACKGROUND We investigated the efficacy of intra-articular injection of human umbilical cord mesenchymal stem cells(hUC-MSCs)for the treatment of osteoarthritis(OA)progression in the knee joint.Although many experimental studies of hUC-MSCs have been published,these studies have mainly used fetal bovine serumcontaining cultures of hUC-MSCs;serum-free cultures generally avoid the shortcomings of serum-containing cultures and are not subject to ethical limitations,have a wide range of prospects for clinical application,and provide a basis or animal experimentation for clinical experiments.AIM To study the therapeutic effects of serum-free hUC-MSCs(N-hUCMSCs)in a mouse model of knee OA.METHODS Fifty-five male C57BL/6 mice were randomly divided into six groups:The blank control group,model control group,serum-containing hUC-MSCs(S-hUCMSC)group,N-hUCMSC group and hyaluronic acid(HA)group.After 9 weeks of modeling,the serum levels of interleukin(IL)-1β and IL-1 were determined.Hematoxylin-eosin staining was used to observe the cartilage tissue,and the Mankin score was determined.Immunohistochemistry and western blotting were used to determine the expression of collagen type II,matrix metalloproteinase(MMP)-1 and MMP-13.RESULTS The Mankin score and serum IL-1 and IL-1β and cartilage tissue MMP-1 and MMP-13 expression were significantly greater in the experimental group than in the blank control group(P<0.05).Collagen II expression in the experimental group was significantly lower than that in the blank control group(P<0.05).The Mankin score and serum IL-1 and IL-1β and cartilage tissue MMP-1 and MMP-13 levels the experimental group were lower than those in the model control group(P<0.05).Collagen II expression in the experimental group was significantly greater than that in the model control group(P<0.05).CONCLUSION N-hUCMSC treatment significantly alleviate the pathological damage caused by OA.The treatment effects of the ShUCMSC group and HA group were similar.
基金Supported by China International Medical Foundation,No.Z-2019-41-2101-04China Postdoctoral Science Foundation Funded Project,No.2022M721957+1 种基金West China Psychiatric Association,No.WL2022102Guangdong Basic and Applied Basic Research Foundation,No.2023A1515110717.
文摘BACKGROUND Necrotizing enterocolitis(NEC)is a severe gastrointestinal disease that affects premature infants.Although mounting evidence supports the therapeutic effect of exosomes on NEC,the underlying mechanisms remain unclear.AIM To investigate the mechanisms underlying the regulation of inflammatory response and intestinal barrier function by umbilical cord mesenchymal stem cell(UCMSCs)exosomes,as well as their potential in alleviating NEC in neonatal mice.METHODS NEC was induced in 5-d-old C57BL/6 pups through hypoxia and gavage feeding of formula containing lipopolysaccharide(LPS),after which the mice received human UCMSC exosomes(hUCMSC-exos).The control mice were allowed to breastfeed with their dams.Ileal tissues were collected from the mice and analyzed by histopathology and immunoblotting.Colon tissues were collected from NEC neonates and analyzed by immunofluorescence.Molecular biology and cell culture approaches were employed to study the related mechanisms in intestinal epithelial cells.RESULTS We found that autophagy is overactivated in intestinal epithelial cells during NEC,resulting in reduced expression of tight junction proteins and an increased inflammatory response.The ability of hUCMSC-exos to ameliorate NEC in a mouse model was dependent on decreased intestinal autophagy.We also showed that hUCMSC-exos alleviate the inflammatory response and increase migration ability in intestinal epithelial cells induced by LPS.CONCLUSION These results contribute to a better understanding of the protective mechanisms of hUCMSC-exos against NEC and provide a new theoretical and experimental foundation for NEC treatment.These findings also enhance our understanding of the role of the autophagy mechanism in NEC,offering potential avenues for identifying new therapeutic targets.
文摘BACKGROUND The gold standard of care for patients with severe peripheral nerve injury is autologous nerve grafting;however,autologous nerve grafts are usually limited for patients because of the limited number of autologous nerve sources and the loss of neurosensory sensation in the donor area,whereas allogeneic or xenografts are even more limited by immune rejection.Tissue-engineered peripheral nerve scaffolds,with the morphology and structure of natural nerves and complex biological signals,hold the most promise as ideal peripheral nerve“replacements”.AIM To prepare allogenic peripheral nerve scaffolds using a low-toxicity decellularization method,and use human umbilical cord mesenchymal stem cells(hUCMSCs)as seed cells to cultivate scaffold-cell complexes for the repair of injured peripheral nerves.METHODS After obtaining sciatic nerves from New Zealand rabbits,an optimal acellular scaffold preparation scheme was established by mechanical separation,varying lyophilization cycles,and trypsin and DNase digestion at different times.The scaffolds were evaluated by hematoxylin and eosin(HE)and luxol fast blue(LFB)staining.The maximum load,durability,and elastic modulus of the acellular scaffolds were assessed using a universal material testing machine.The acellular scaffolds were implanted into the dorsal erector spinae muscle of SD rats and the scaffold degradation and systemic inflammatory reactions were observed at 3 days,1 week,3 weeks,and 6 weeks following surgery to determine the histocompatibility between xenografts.The effect of acellular scaffold extracts on fibroblast proliferation was assessed using an MTT assay to measure the cytotoxicity of the scaffold residual reagents.In addition,the umbilical cord from cesarean section fetuses was collected,and the Wharton’s jelly(WJ)was separated into culture cells and confirm the osteogenic and adipogenic differentiation of mesenchymal stem cells(MSCs)and hUC-MSCs.The cultured cells were induced to differentiate into Schwann cells by the antioxidant-growth factor induction method,and the differentiated cells and the myelinogenic properties were identified.RESULTS The experiments effectively decellularized the sciatic nerve of the New Zealand rabbits.After comparing the completed acellular scaffolds among the groups,the optimal decellularization preparation steps were established as follows:Mechanical separation of the epineurium,two cycles of lyophilization-rewarming,trypsin digestion for 5 hours,and DNase digestion for 10 hours.After HE staining,no residual nuclear components were evident on the scaffold,whereas the extracellular matrix remained intact.LFB staining showed a significant decrease in myelin sheath composition of the scaffold compared with that before preparation.Biomechanical testing revealed that the maximum tensile strength,elastic modulus,and durability of the acellular scaffold were reduced compared with normal peripheral nerves.Based on the histocompatibility test,the immune response of the recipient SD rats to the scaffold New Zealand rabbits began to decline3 weeks following surgery,and there was no significant rejection after 6 weeks.The MTT assay revealed that the acellular reagent extract had no obvious effects on cell proliferation.The cells were successfully isolated,cultured,and passaged from human umbilical cord WJ by MSC medium,and their ability to differentiate into Schwann-like cells was demonstrated by morphological and immunohistochemical identification.The differentiated cells could also myelinate in vitro.CONCLUSION The acellular peripheral nerve scaffold with complete cell removal and intact matrix may be prepared by combining lyophilization and enzyme digestion.The resulting scaffold exhibited good histocompatibility and low cytotoxicity.In addition,hUC-MSCs have the potential to differentiate into Schwann-like cells with myelinogenic ability following in vitro induction.
文摘Human umbilical cord(UC)is a promising source of mesenchymal stem cells(MSCs).Apart from their prominent advantages,such as a painless collection procedure and faster self-renewal,UC-MSCs have shown the ability to differentiate into three germ layers,to accumulate in damaged tissue or inflamed regions,to promote tissue repair,and to modulate immune response.There are diverse protocols and culture methods for the isolation of MSCs from the various compartments of UC,such as Wharton’s jelly,vein,arteries,UC lining and subamnion and perivascular regions.In this review,we give a brief introduction to various compartments of UC as a source of MSCs and emphasize the potential clinical utility of UC-MSCs for regenerative medicine and immunotherapy.
基金This study was supported by a grant from National Natural Science Foundation of China(No.30271245)Hi-Tech Research and Development Program of China(863 Program)(No.2003AA205170)+1 种基金National Basic Research Program of China(973 Program)(No.G 1999054302)a grant from Bejing Gynecology and Obstetrics Hospital Affiliate of Capital University of Medical Sciences.
文摘Human placenta-derived mononuclear cells (MNC) were isolated by a Percoll density gradient and cultured in mesenchymal stem cell (MSC) maintenance medium. The homogenous layer of adherent cells exhibited a typical fibroblastlike morphology, a large expansive potential, and cell cycle characteristics including a subset of quiescent cells. In vitro differentiation assays showed the tripotential differentiation capacity of these cells toward adipogenic, osteogenic and chondrogenic lineages. Flow cytometry analyses and immunocytochemistry stain showed that placental MSC was a homogeneous cell population devoid of hematopoietic cells, which uniformly expressed CD29, CD44, CD73, CD105, CD166, laminin, fibronectin and vimentin while being negative for expression of CD31, CD34, CD45 and m-smooth muscle actin. Most importantly, immuno-phenotypic analyses demonstrated that these cells expressed class Ⅰ major histocompatibility complex (MHC-I), but they did not express MHC-Ⅱ molecules. Additionally these cells could suppress umbilical cord blood (UCB) lymphocytes proliferation induced by cellular or nonspecific mitogenic stimuli. This strongly implies that they may have potential application in allograft transplantation. Since placenta and UCB are homogeneous, the MSC derived from human placenta can be transplanted combined with hematopoietic stem cells (HSC) from UCB to reduce the potential graft-versus-host disease (GVHD) in recipients.
