Literature DB >> 33773104

Proteasome stress in skeletal muscle mounts a long-range protective response that delays retinal and brain aging.

Mamta Rai1, Zane Coleman1, Michelle Curley1, Anjana Nityanandam2, Anna Platt1, Maricela Robles-Murguia1, Jianqin Jiao1, David Finkelstein3, Yong-Dong Wang4, Beisi Xu3, Yiping Fan3, Fabio Demontis5.   

Abstract

Neurodegeneration in the central nervous system (CNS) is a defining feature of organismal aging that is influenced by peripheral tissues. Clinical observations indicate that skeletal muscle influences CNS aging, but the underlying muscle-to-brain signaling remains unexplored. In Drosophila, we find that moderate perturbation of the proteasome in skeletal muscle induces compensatory preservation of CNS proteostasis during aging. Such long-range stress signaling depends on muscle-secreted Amyrel amylase. Mimicking stress-induced Amyrel upregulation in muscle reduces age-related accumulation of poly-ubiquitinated proteins in the brain and retina via chaperones. Preservation of proteostasis stems from the disaccharide maltose, which is produced via Amyrel amylase activity. Correspondingly, RNAi for SLC45 maltose transporters reduces expression of Amyrel-induced chaperones and worsens brain proteostasis during aging. Moreover, maltose preserves proteostasis and neuronal activity in human brain organoids challenged by thermal stress. Thus, proteasome stress in skeletal muscle hinders retinal and brain aging by mounting an adaptive response via amylase/maltose.
Copyright © 2021 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  aging; amylase; brain organoids; maltose; muscle-to-brain signaling; muscle-to-retina signaling; myokine; proteasome; proteostasis; stress response

Mesh:

Substances:

Year:  2021        PMID: 33773104      PMCID: PMC8172468          DOI: 10.1016/j.cmet.2021.03.005

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   31.373


  114 in total

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