乙醇对BDNF基因缺失动物新生小脑的影响:对浦肯野细胞、凋亡相关蛋白和内源性抗氧化剂的影响分析

M. Heaton, Irina Madorsky, M. Paiva, Joanne Mayer
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引用次数: 25

摘要

发育中的中枢神经系统(CNS)对乙醇有害影响的敏感性已被充分记录,暴露会导致广泛的中枢神经系统异常。某些中枢神经系统区域在明确的关键时期对乙醇敏感。在新生啮齿动物的小脑中,当在产后早期(出生后第4天或第5天)给予乙醇时,发现浦肯野细胞的严重损失,而在产后稍晚的时候,这些神经元群对类似的乙醇损伤的脆弱性要小得多(P7-9)。先前的研究表明,神经营养因子(NTFs)可以通过乙醇暴露而改变,体外和体内研究都提供了证据,证明这些物质具有防止乙醇神经毒性的潜力。在本研究中,假设对小脑发育很重要的NTF的耗竭会加剧该区域内的乙醇相关效应,当给药仅限于正常的乙醇抗性个体发生期。在这项研究中,脑源性神经营养因子(BDNF)基因缺失(“敲除”)和野生型小鼠在正常的乙醇抵抗期(P7和P8)通过蒸汽吸入或控制条件暴露于乙醇中。在P8结束暴露2小时后,对体重、冠臀长和脑重进行分析。在随后的研究中,测定了浦肯野细胞的数量和密度以及小脑I小叶的体积,并评估了抗凋亡和促凋亡蛋白的表达以及内源性抗氧化剂的活性。研究发现,BDNF基因敲除的动物明显小于野生型动物,大脑重量也更小。与野生型相比,基因缺失动物的I小叶体积明显减少,但乙醇处理并未进一步影响I小叶体积。在BDNF敲除中,浦肯野细胞的损失伴随着抗凋亡Bcl-xl和磷酸化(因此失活)促凋亡Bad的减少,以及抗氧化谷胱甘肽还原酶活性的降低,而抗氧化过氧化氢酶在该基因型中通过乙醇处理而增加。在野生型动物中,乙醇处理降低了抗凋亡的Bcl-2,而促凋亡的c-Jun n -末端激酶(JNK)明显降低,而保护性抗氧化超氧化物歧化酶(SOD)的活性显著增强。这些结果表明,神经营养因子具有防止乙醇神经毒性的能力,可能是通过调节对神经元存活至关重要的分子的表达,如凋亡级联因子和保护性抗氧化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of ethanol on neonatal cerebellum of BDNF gene-deleted animals: analyses of effects on Purkinje cells, apoptosis-related proteins, and endogenous antioxidants.
The sensitivity of the developing central nervous system (CNS) to the deleterious effects of ethanol has been well documented, with exposure leading to a wide array of CNS abnormalities. Certain CNS regions are susceptible to ethanol during well-defined critical periods. In the neonatal rodent cerebellum, a profound loss of Purkinje cells is found when ethanol is administered early in the postnatal period [on postnatal days 4 or 5 (P4-5)], while this neuronal population is much less vulnerable to similar ethanol insult slightly later in the postnatal period (P7-9). Prior studies have shown that neurotrophic factors (NTFs) can be altered by ethanol exposure, and both in vitro and in vivo studies have provided evidence that such substances have the potential to protect against ethanol neurotoxicity. In the present study, it was hypothesized that depletion of an NTF shown to be important to cerebellar development would exacerbate ethanol-related effects within this region, when administration was confined to a normally ethanol-resistant ontogenetic period. For this study, brain-derived neurotrophic factor (BDNF) gene-deleted ("knockout") and wild-type mice were exposed to ethanol via vapor inhalation or to control conditions during the normally ethanol-resistant period (P7 and P8). Two hours after termination of exposure on P8, analyses were made of body weight, crown-rump length, and brain weight. In subsequent investigations, the number and density of Purkinje cells and the volume of cerebellar lobule I were determined, and the expression of anti- and pro-apoptotic proteins and the activities of endogenous antioxidants were assessed. It was found that the BDNF knockouts were significantly smaller than the wild-type animals, with smaller brain weights. Purkinje cell number and density was reduced in ethanol-treated knockout, but not wild-type animals, and the volume of lobule I was significantly decreased in the gene-deleted animals compared to wild-types, but was not further affected by ethanol treatment. The loss of Purkinje cells in the BDNF knockouts was accompanied by decreases in anti-apoptotic Bcl-xl and in phosphorylated (and hence inactivated) pro-apoptotic Bad, and reduced activity of the antioxidant glutathione reductase, while the antioxidant catalase was increased by ethanol treatment in this genotype. In the wild-type animals, anti-apoptotic Bcl-2 was decreased by ethanol treatment, but the pro-apoptotic c-Jun N-terminal kinase (JNK) was markedly diminished by ethanol exposure, while the activity of the protective antioxidant superoxide dismutase (SOD) was significantly enhanced. These results suggest that neurotrophic factors have the capacity to protect against ethanol neurotoxicity, perhaps by regulation of expression of molecules critical to neuronal survival such as elements of the apoptosis cascade and protective antioxidants.
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