母亲服用沙利度胺或丙戊酸会导致后代血清素能神经元异常：对自闭症发病机制的启示。

Maternal administration of thalidomide or valproic acid causes abnormal serotonergic neurons in the offspring: implication for pathogenesis of autism.

作者信息

Miyazaki Kaoru, Narita Naoko, Narita Masaaki

机构信息

Neurobiology Laboratory, Institute of Basic Medical Sciences, University of Tsukuba, 1-1-1 Tennodai, Tsukuba-City, Ibaraki 305-8575, Japan.

出版信息

Int J Dev Neurosci. 2005 Apr-May;23(2-3):287-97. doi: 10.1016/j.ijdevneu.2004.05.004.

DOI:10.1016/j.ijdevneu.2004.05.004

PMID:15749253

Abstract

Embryonic exposure to thalidomide (THAL) or valproic acid (VPA) before neural tube closure has been demonstrated as a useful model for human autism in rats. Abnormalities of the serotonergic system which are often observed in human autism have been shown in these rats. Thus, we examined whether early serotonergic neuronal development is perturbed by THAL/VPA. When pregnant rats were exposed to THAL or VPA on embryonic day 9, a dramatic shift of the distribution of serotonergic neurons in the dorsal raphe nucleus was observed on postnatal day 50. This alteration is thought to reflect abnormality of serotonergic neuronal differentiation and migration. In vitro studies revealed that VPA retards the maturation of serotonergic neuron from ES cell-derived neuronal progenitors, whereas exogenously added Sonic hedgehog, a morphogen that has been implicated in serotonergic cell fate, partially prevented this retardation. These results indicate that disruption of early serotonergic neuronal development might be involved in the etiology of autism.

摘要

在神经管闭合之前，胚胎期暴露于沙利度胺（THAL）或丙戊酸（VPA）已被证明是大鼠人类自闭症的有用模型。在这些大鼠中已显示出人类自闭症中经常观察到的血清素能系统异常。因此，我们研究了早期血清素能神经元发育是否受到THAL/VPA的干扰。当怀孕大鼠在胚胎第9天暴露于THAL或VPA时，在出生后第50天观察到中缝背核中血清素能神经元分布的显著变化。这种改变被认为反映了血清素能神经元分化和迁移的异常。体外研究表明，VPA会延迟ES细胞衍生的神经元祖细胞中血清素能神经元的成熟，而外源性添加的音猬因子（一种与血清素能细胞命运有关的形态发生素）可部分阻止这种延迟。这些结果表明，早期血清素能神经元发育的破坏可能与自闭症的病因有关。

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母亲服用沙利度胺或丙戊酸会导致后代血清素能神经元异常：对自闭症发病机制的启示。

Maternal administration of thalidomide or valproic acid causes abnormal serotonergic neurons in the offspring: implication for pathogenesis of autism.

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