The Role of Protein Quantity Control in Polyglutamine Spinocerebellar Ataxias.

IF 2.7 3区 医学 Q3 NEUROSCIENCES
Cerebellum Pub Date : 2024-12-01 Epub Date: 2024-07-25 DOI:10.1007/s12311-024-01722-w
Hongfeng Zhang, Xin Wang
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引用次数: 0

Abstract

Polyglutamine spinocerebellar ataxias (polyQ SCAs) represent the most prevalent subtype of SCAs. The primary pathogenic mechanism is believed to be the gain-of-function neurotoxicity of polyQ proteins. Strategies such as enhancing the degradation or inhibiting the accumulation of these mutant proteins are pivotal for reducing their toxicity and slowing disease progression. The protein quality control (PQC) system, comprising primarily molecular chaperones and the ubiquitin‒proteasome system (UPS), is essential for maintaining protein homeostasis by regulating protein folding, trafficking, and degradation. Notably, polyQ proteins can disrupt the PQC system by sequestering its critical components and impairing its proteasomal functions. Therefore, restoring the PQC system through genetic or pharmacological interventions could potentially offer beneficial effects and alleviate the symptoms of the disease. Here, we will provide a review on the distribution, expression, and genetic or pharmacological intervention of protein quality control system in cellular or animal models of PolyQ SCAs.

Abstract Image

多谷氨酰胺脊髓小脑共济失调症中蛋白质数量控制的作用
多聚谷氨酰胺脊髓小脑共济失调症(多Q型SCA)是SCA中最常见的亚型。其主要致病机制被认为是多Q蛋白的功能增益神经毒性。加强降解或抑制这些突变蛋白的积累等策略对于降低其毒性和减缓疾病进展至关重要。蛋白质质量控制系统(PQC)主要由分子伴侣和泛素-蛋白酶体系统(UPS)组成,通过调节蛋白质的折叠、运输和降解来维持蛋白质的平衡。值得注意的是,polyQ 蛋白可通过封存 PQC 系统的关键成分并损害其蛋白酶体功能来破坏 PQC 系统。因此,通过基因或药物干预恢复 PQC 系统可能会带来有益的影响,并缓解疾病症状。在此,我们将综述蛋白质质量控制系统在多聚酶SCA细胞或动物模型中的分布、表达以及基因或药物干预。
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来源期刊
Cerebellum
Cerebellum 医学-神经科学
CiteScore
6.40
自引率
14.30%
发文量
150
审稿时长
4-8 weeks
期刊介绍: Official publication of the Society for Research on the Cerebellum devoted to genetics of cerebellar ataxias, role of cerebellum in motor control and cognitive function, and amid an ageing population, diseases associated with cerebellar dysfunction. The Cerebellum is a central source for the latest developments in fundamental neurosciences including molecular and cellular biology; behavioural neurosciences and neurochemistry; genetics; fundamental and clinical neurophysiology; neurology and neuropathology; cognition and neuroimaging. The Cerebellum benefits neuroscientists in molecular and cellular biology; neurophysiologists; researchers in neurotransmission; neurologists; radiologists; paediatricians; neuropsychologists; students of neurology and psychiatry and others.
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