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神经元CBP-1是响应mTOR下游翻译减少而增强身体肌肉蛋白质稳态所必需的。

Neuronal CBP-1 is required for enhanced body muscle proteostasis in response to reduced translation downstream of mTOR.

作者信息

Snow Santina, Mir Dilawar, Ma Zhengxin, Horrocks Jordan, Cox Matthew, Ruzga Marissa, Sayed Hussein, Rogers Aric N

出版信息

bioRxiv. 2024 Mar 17:2024.03.15.585263. doi: 10.1101/2024.03.15.585263.

DOI:10.1101/2024.03.15.585263
PMID:38559178
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10980069/
Abstract

BACKGROUND

The ability to maintain muscle function decreases with age and loss of proteostatic function. Diet, drugs, and genetic interventions that restrict nutrients or nutrient signaling help preserve long-term muscle function and slow age-related decline. Previously, it was shown that attenuating protein synthesis downstream of the mechanistic target of rapamycin (mTOR) gradually increases expression of heat shock response (HSR) genes in a manner that correlates with increased resilience to protein unfolding stress. Here, we investigate the role of specific tissues in mediating the cytoprotective effects of low translation.

METHODS

This study uses genetic tools (transgenic , RNA interference and gene expression analysis) as well as physiological assays (survival and paralysis assays) in order to better understand how specific tissues contribute to adaptive changes involving cellular cross-talk that enhance proteostasis under low translation conditions.

RESULTS

We use the system to show that lowering translation in neurons or the germline increases heat shock gene expression and survival under conditions of heat stress. In addition, we find that low translation in these tissues protects motility in a body muscle-specific model of proteotoxicity that results in paralysis. Low translation in neurons or germline also results in increased expression of certain muscle regulatory and structural genes, reversing reduced expression normally observed with aging in . Enhanced resilience to protein unfolding stress requires neuronal expression of .

CONCLUSION

Low translation in either neurons or the germline orchestrate protective adaptation in other tissues, including body muscle.

摘要

背景

维持肌肉功能的能力会随着年龄增长和蛋白质稳态功能的丧失而下降。限制营养物质或营养信号的饮食、药物和基因干预有助于维持长期肌肉功能,并减缓与年龄相关的衰退。此前研究表明,减弱雷帕霉素机制靶点(mTOR)下游的蛋白质合成会以一种与增强对蛋白质解折叠应激的恢复力相关的方式逐渐增加热休克反应(HSR)基因的表达。在此,我们研究特定组织在介导低翻译的细胞保护作用中的作用。

方法

本研究使用基因工具(转基因、RNA干扰和基因表达分析)以及生理学检测(存活和麻痹检测),以更好地理解特定组织如何促成涉及细胞间相互作用的适应性变化,从而在低翻译条件下增强蛋白质稳态。

结果

我们使用该系统表明,在热应激条件下,降低神经元或生殖系中的翻译会增加热休克基因表达和存活率。此外,我们发现这些组织中的低翻译可保护一种导致麻痹的体肌特异性蛋白毒性模型中的运动能力。神经元或生殖系中的低翻译还会导致某些肌肉调节和结构基因的表达增加,逆转通常在衰老过程中观察到的表达降低。对蛋白质解折叠应激的恢复力增强需要神经元表达。

结论

神经元或生殖系中的低翻译协调其他组织(包括体肌)中的保护性适应。