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观点:脊髓小脑共济失调是浦肯野细胞功能障碍性疾病,而非浦肯野细胞丢失性疾病。

Viewpoint: spinocerebellar ataxias as diseases of Purkinje cell dysfunction rather than Purkinje cell loss.

作者信息

Kapfhammer Josef P, Shimobayashi Etsuko

机构信息

Institute of Anatomy, Department of Biomedicine, University of Basel, Basel, Switzerland.

出版信息

Front Mol Neurosci. 2023 Jun 22;16:1182431. doi: 10.3389/fnmol.2023.1182431. eCollection 2023.

Abstract

Spinocerebellar ataxias (SCAs) are a group of hereditary neurodegenerative diseases mostly affecting cerebellar Purkinje cells caused by a wide variety of different mutations. One subtype, SCA14, is caused by mutations of Protein Kinase C gamma (PKCγ), the dominant PKC isoform present in Purkinje cells. Mutations in the pathway in which PKCγ is active, i.e., in the regulation of calcium levels and calcium signaling in Purkinje cells, are the cause of several other variants of SCA. In SCA14, many of the observed mutations in the PKCγ gene were shown to increase the basal activity of PKCγ, raising the possibility that increased activity of PKCγ might be the cause of most forms of SCA14 and might also be involved in the pathogenesis of SCA in related subtypes. In this viewpoint and review article we will discuss the evidence for and against such a major role of PKCγ basal activity and will suggest a hypothesis of how PKCγ activity and the calcium signaling pathway may be involved in the pathogenesis of SCAs despite the different and sometimes opposing effects of mutations affecting these pathways. We will then widen the scope and propose a concept of SCA pathogenesis which is not primarily driven by cell death and loss of Purkinje cells but rather by dysfunction of Purkinje cells which are still present and alive in the cerebellum.

摘要

脊髓小脑共济失调(SCAs)是一组遗传性神经退行性疾病,主要影响小脑浦肯野细胞,由多种不同突变引起。其中一个亚型,SCA14,是由蛋白激酶Cγ(PKCγ)突变引起的,PKCγ是浦肯野细胞中主要的PKC亚型。PKCγ活跃的信号通路中的突变,即浦肯野细胞中钙水平和钙信号的调节异常,是其他几种SCA变体的病因。在SCA14中,PKCγ基因中观察到的许多突变被证明会增加PKCγ的基础活性,这增加了一种可能性,即PKCγ活性增加可能是大多数形式的SCA14的病因,并且可能也参与了相关亚型SCA的发病机制。在这篇观点和综述文章中,我们将讨论支持和反对PKCγ基础活性起主要作用的证据,并提出一个假设,即尽管影响这些信号通路的突变具有不同甚至相反的作用,但PKCγ活性和钙信号通路可能如何参与SCAs的发病机制。然后,我们将拓宽范围,提出一种SCA发病机制的概念,其主要不是由细胞死亡和浦肯野细胞丢失驱动,而是由小脑仍存在且存活的浦肯野细胞功能障碍驱动。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36dc/10323145/47f5e0ffa158/fnmol-16-1182431-g001.jpg

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