Using eyeblink classical conditioning as a test of the functional consequences of exposure of the developing cerebellum to alcohol.

John T Green
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引用次数: 3

Abstract

Exposure of the developing brain to alcohol produces profound Purkinje cell loss in the cerebellum, and deficits in tests of motor coordination. However, the precise relationship between these two sets of findings has been difficult to determine. Eyeblink classical conditioning is known to engage a discrete brainstem-cerebellar circuit, making it an ideal test of cerebellar functional integrity after developmental alcohol exposure. In eyeblink conditioning, one of the deep cerebellar nuclei, the interpositus nucleus, as well as specific Purkinje cell populations, are sites of convergence for CS and US information. A series of studies have shown that eyeblink conditioning is impaired in both weanling and adult rats given binge-like exposure to alcohol as neonates, and that these deficits can be traced, at least in part, to impaired activation of cerebellar interpositus nucleus neurons and to an overall reduction in the deep cerebellar nuclear cell population. Because particular cerebellar cell populations are utilized in well-defined ways during eyeblink conditioning, conclusions regarding specific changes in the mediation of behavior by these cell populations are greatly strengthened. Further studies will be directed towards the impact of early exposure to alcohol on the functionality of specific Purkinje cell populations, as well as towards brainstem areas that process the tone CS and the somatosensory US.

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用眨眼经典条件反射法测试酒精对发育中的小脑的功能影响。
发育中的大脑暴露于酒精中会导致小脑中严重的浦肯野细胞损失,并在运动协调测试中出现缺陷。然而,这两组发现之间的确切关系很难确定。众所周知,眨眼经典条件反射涉及一个独立的脑干-小脑回路,使其成为发育性酒精暴露后小脑功能完整性的理想测试。在眨眼条件反射中,小脑深部核之一、间位核以及特定的浦肯野细胞群是CS和US信息的汇聚点。一系列研究表明,断奶大鼠和成年大鼠在出生时酗酒,眨眼条件反射都受到损害,这些缺陷至少部分可以追溯到小脑间位核神经元的激活受损和小脑深部核细胞数量的总体减少。由于特定的小脑细胞群在眨眼调节过程中以明确的方式被利用,因此关于这些细胞群介导行为的特定变化的结论大大加强了。进一步的研究将针对早期接触酒精对特定浦肯野细胞群功能的影响,以及对处理音调CS和体感US的脑干区域的影响。
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