Overexpression of NGF ameliorates ethanol neurotoxicity in the developing cerebellum.

Journal of neurobiology Pub Date : 2000-11-05
M B Heaton, J J Mitchell, M Paiva
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Abstract

Transgenic mice overexpressing NGF in the central nervous system under the control of the glial fibrillary acidic protein (GFAP) promoter were exposed to ethanol via vapor inhalation on postnatal days 4 and 5 (P4-5), the period of maximal cerebellar Purkinje cell sensitivity to ethanol. Wild-type controls were exposed in a similar manner. There were no differences in body weight or size following these procedures, but the transgenic brain weights at this age were significantly greater than wild-type controls. In the wild-type animals, a significant 33.3% ethanol-mediated loss of Purkinje cells in lobule I was detected via unbiased three-dimensional stereological counting on P5. In the GFAP-NGF transgenic animals, however, the 17.6% difference in Purkinje cell number in control and ethanol-exposed animals was not significant. There was a similar difference in Purkinje cell density in both groups, which did reach statistical significance (-32.7% in wild-type ethanol-treated animals, -17% in transgenic ethanol-exposed animals). These results suggest that endogenous overexpression of neurotrophic factors, which have previously been shown to protect against ethanol neurotoxicity in culture, can serve a similar protective function in the intact animal.

过表达NGF可改善发育中的小脑的乙醇神经毒性。
在神经胶质纤维酸性蛋白(GFAP)启动子控制下,中枢神经系统过表达NGF的转基因小鼠在出生后第4天和第5天(P4-5),即小脑浦肯野细胞对乙醇敏感性最大的时期,通过蒸汽吸入暴露于乙醇中。野生型对照以类似的方式暴露。在这些操作之后,体重和大小没有差异,但转基因小鼠在这个年龄的大脑重量明显大于野生型对照组。在野生型动物中,通过P5的无偏三维立体计数检测到乙醇介导的I小叶浦肯野细胞损失显著33.3%。然而,在GFAP-NGF转基因动物中,对照组和乙醇暴露动物的浦肯野细胞数量差异为17.6%,差异不显著。两组的浦肯野细胞密度差异相似,但均有统计学意义(野生型乙醇处理动物-32.7%,转基因乙醇暴露动物-17%)。这些结果表明,神经营养因子的内源性过表达,在培养物中已经被证明可以防止乙醇神经毒性,在完整的动物中也可以起到类似的保护作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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