2 型糖尿病小鼠模型中早期纤毛和 prominin-1 功能障碍先于神经发生损伤。

Early ciliary and prominin-1 dysfunctions precede neurogenesis impairment in a mouse model of type 2 diabetes.

机构信息

Instituto de Investigaciones en Medicina Traslacional (IIMT), Universidad Austral-CONICET, B1629AHJ, Pilar, Argentina.

Tissue Engineering Laboratories, Biotechnology Center (BIOTEC) and DFG Center for Regenerative Therapies Dresden (CRTD), Technische Universität Dresden, 01307 Dresden, Germany.

出版信息

Neurobiol Dis. 2017 Dec;108:13-28. doi: 10.1016/j.nbd.2017.07.010. Epub 2017 Jul 23.

DOI:10.1016/j.nbd.2017.07.010

PMID:28743634

Abstract

Diabetes mellitus (DM) is reaching epidemic conditions worldwide and increases the risk for cognition impairment and dementia. Here, we postulated that progenitors in adult neurogenic niches might be particularly vulnerable. Therefore, we evaluated the different components of the mouse subventricular zone (SVZ) during the first week after chemical induction of type 1 and type 2 diabetes-like (T1DM and T2DM) conditions. Surprisingly, only T2DM mice showed SVZ damage. The initial lesions were localized to ependymal cilia, which appeared disorientated and clumped together. In addition, they showed delocalization of the ciliary membrane protein prominin-1. Impairment of neuroprogenitor proliferation, neurogenic marker abnormalities and ectopic migration of neuroblasts were found at a later stage. To our knowledge, our data describe for the first time such an early impact of T2DM on the SVZ. This is consistent with clinical data indicating that brain damage in T2DM patients differs from that in T1DM patients.

摘要

糖尿病（DM）在全球范围内呈流行趋势，增加了认知障碍和痴呆的风险。在这里，我们假设成年神经发生龛中的祖细胞可能特别容易受到影响。因此，我们评估了在化学诱导 1 型和 2 型糖尿病样（T1DM 和 T2DM）条件后的第一周内，小鼠侧脑室下区（SVZ）的不同成分。令人惊讶的是，只有 T2DM 小鼠显示出 SVZ 损伤。最初的病变定位于室管膜纤毛，纤毛看起来定向紊乱并聚集在一起。此外，它们显示出纤毛膜蛋白 prominin-1 的定位缺失。在后期还发现了神经祖细胞增殖受损、神经发生标记异常和神经前体细胞异位迁移。据我们所知，我们的数据首次描述了 T2DM 对 SVZ 的这种早期影响。这与临床数据一致，表明 T2DM 患者的大脑损伤与 T1DM 患者不同。

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2 型糖尿病小鼠模型中早期纤毛和 prominin-1 功能障碍先于神经发生损伤。

Early ciliary and prominin-1 dysfunctions precede neurogenesis impairment in a mouse model of type 2 diabetes.

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