解剖学杂志
解剖學雜誌
해부학잡지
CHINESE JOURNAL OF ANATOMY
2009年
6期
770-773
,共4页
缺氧%海马%巢蛋白%神经元特异性烯醇化酶%学习%记忆
缺氧%海馬%巢蛋白%神經元特異性烯醇化酶%學習%記憶
결양%해마%소단백%신경원특이성희순화매%학습%기억
hypoxia%hippocampus%nestin%neuron-specific enolase%memory%learning
目的:探讨缺氧对新生大鼠海马区巢蛋白、神经元特异性烯醇化酶(NSE)的表达及幼年大鼠学习记忆能力的影响.方法:将48只7d龄SD大鼠随机分为缺氧组和对照组各24只,缺氧组通过低张性缺氧建立新生鼠缺氧模型.于缺氧24h后,两组各取16只幼鼠取其大脑组织进行巢蛋白、NSE免疫组织化学显色,两组剩余8只大鼠于生后30d Morris水迷宫测试后进行大脑NSE免疫组织化学显色.结果:缺氧组幼鼠海马巢蛋白阳性细胞的积分光密度(IOD)值明显高于对照组,而缺氧组NSE阳性细胞的IOD值明显低于对照组.Morris水迷宫检测中缺氧组幼鼠在目标象限内搜寻时间缩短.结论:缺氧引起新生鼠神经干细胞增殖,却导致神经元数量减少,幼鼠的学习记忆能力明显下降.
目的:探討缺氧對新生大鼠海馬區巢蛋白、神經元特異性烯醇化酶(NSE)的錶達及幼年大鼠學習記憶能力的影響.方法:將48隻7d齡SD大鼠隨機分為缺氧組和對照組各24隻,缺氧組通過低張性缺氧建立新生鼠缺氧模型.于缺氧24h後,兩組各取16隻幼鼠取其大腦組織進行巢蛋白、NSE免疫組織化學顯色,兩組剩餘8隻大鼠于生後30d Morris水迷宮測試後進行大腦NSE免疫組織化學顯色.結果:缺氧組幼鼠海馬巢蛋白暘性細胞的積分光密度(IOD)值明顯高于對照組,而缺氧組NSE暘性細胞的IOD值明顯低于對照組.Morris水迷宮檢測中缺氧組幼鼠在目標象限內搜尋時間縮短.結論:缺氧引起新生鼠神經榦細胞增殖,卻導緻神經元數量減少,幼鼠的學習記憶能力明顯下降.
목적:탐토결양대신생대서해마구소단백、신경원특이성희순화매(NSE)적표체급유년대서학습기억능력적영향.방법:장48지7d령SD대서수궤분위결양조화대조조각24지,결양조통과저장성결양건립신생서결양모형.우결양24h후,량조각취16지유서취기대뇌조직진행소단백、NSE면역조직화학현색,량조잉여8지대서우생후30d Morris수미궁측시후진행대뇌NSE면역조직화학현색.결과:결양조유서해마소단백양성세포적적분광밀도(IOD)치명현고우대조조,이결양조NSE양성세포적IOD치명현저우대조조.Morris수미궁검측중결양조유서재목표상한내수심시간축단.결론:결양인기신생서신경간세포증식,각도치신경원수량감소,유서적학습기억능력명현하강.
Objective: To explore the expression of nestin and neuron-specific enolase (NSE) in the brain tissue of rat pups after hypoxia and its effects on learning and memory. Methods: 7-day-old SD rats were divided into control group (CG, n=24) and hypoxia group (HG, n=24) that established by means of hypotonic hypoxia. The brain tissues of 14 rat pups from each group were detected using immunohistochemistry to explore the expression of nestin and NSE proteins 24 hours after hypoxia. The expression of NSE in remaining 16 rat pups was detected using immunohistochemistry after the water maze was performed at postnatal day 30. Results: IOD of nestin positive cells in hippocampus of HG was higher than that in CG, whereas the IOD of NSE positive cells in hippocampus of HG was lower than that in CG. The hypoxic pups spent less time in target quadrant in the Morris water maze experiment. Conclusion: Hypoxia can stimulate the neural stem cells into proliferation and the neurons into degeneration, therefore, descend the learning and memory capability.
