摘要
给刚断乳的大鼠饮用 0 2 %醋酸铅水 90~ 10 8d后 ,测定血铅和脑铅水平、脑海马齿状回LTP的诱发率、神经元内Ca2 + 浓度和细胞膜和胞液中蛋白激酶C活性 ,以探讨铅损害学习记忆功能的机理。结果 :实验组动物血铅 (4 76±1 0 8μmol/L)和脑铅 (0 5 9± 0 0 6 μg/ g湿重 )水平明显高于对照组 (分别为 0 17± 0 0 8μmol/L和 0 0 6± 0 0 2 μg/g湿重 ) (P<0 0 1) ;诱发的LTP发生率为 18 2 % (2 / 11) ,明显低于对照组的 83 3% (10 / 12 ) (P <0 0 1) ,发生LTP动物的PS幅值增长率为基线值 (按 10 0 %计 )的 12 0 15± 7 15 % ,明显低于对照组的 142 70± 15 10 % (P <0 0 5 ) ,另有 6 3 6 % (7/ 11)的动物出现长时程抑制 (LTD) ;染铅大鼠海马神经元的Ca2 + 浓度、胞膜和胞液PKC活性分别为 2 6 5 48± 5 3 6 1mmol/L、1 5 2±0 40和 1 87± 0 35nmol/min/mg蛋白 ,均比对照组 (为 10 8 81± 2 6 85mmol/L、0 94± 0 33和 1 31± 0 2 9nmol/min/mg蛋白 )显著升高 (P <0 0 1)。这表明 ,慢性染铅损害LTP的形成 ,而海马神经元Ca2 + 浓度和PKC活性的异常增高可能是重要机理之一。
After the weanling male Wistar rats were fed 0.2% acetate lead water for 90~108 days,blood lead and brain blood lead,the induction rate of LTP,the concentration of Ca 2+ and the activities of protein kinase C(PKC) in the neurons of rat hippocampal dentate gyrus(DG) were measured in order to probe into the mechanisms of lead induced impairment on learning and memory functions.The results showed that blood lead(4 76±1 08μmol/L) and brain blood lead(0 59±0 06μg/g tissue)in rats of the tested group were obviously higher than that in the control(0 17±0 08μmol/L and 0 06±0 02μg/g tissue,respectively)(P<0 01);the induction rate of LTP and the changes of PS amplitude in the tested group were only 18 2%(2/11) and 120.15±7.15% respectively,and statistically lower than 83 3%(10/12)and 142 70±15 10% in the control(P<0 01 and P<0 05,respectively).Besides that,7 rats in the tested group occured LTD(63.6%).The Ca 2+ concentration and the PKC activities in cytosol and membrane of hippocampal neurons from lead exposed rats(265 48±53 61mmol/L、1 52±0 40 and 1 87±0 35nmol/min/mg protein,respectively)all significantly increased when comparing with the control(108 81±26 85mmol/L、0 94±0 33 and 1 31±0 29nmol/min/mg protein,respectively)(P<0 01).These results demonstrated that chronic lead exposure can cause adverse effects to the formation of LTP,and suggested that the aberrant increases of Ca 2+ concentration and the PKC activities in hippocampal neurons may play an importent role in LTP process disturbance associated with lead.
出处
《中国公共卫生》
CSCD
北大核心
2000年第3期230-232,共3页
Chinese Journal of Public Health
基金
国家自然科学基金资助项目
关键词
慢性染铅
铅中毒
海马齿状回
长时程增强
钙离子
Chronic lead exposure Hippocampal dentate gyrus Long term potentiation Protein kinase C
