Literature DB >> 30194981

Impaired proteostasis during skeletal muscle aging.

Raquel Fernando1, Cathleen Drescher1, Kerstin Nowotny1, Tilman Grune2, José Pedro Castro3.   

Abstract

Aging is a complex phenomenon that has detrimental effects on tissue homeostasis. The skeletal muscle is one of the earliest tissues to be affected and to manifest age-related changes such as functional impairment and the loss of mass. Common to these alterations and to most of tissues during aging is the disruption of the proteostasis network by detrimental changes in the ubiquitin-proteasomal system (UPS) and the autophagy-lysosomal system (ALS). In fact, during aging the accumulation of protein aggregates, a process mainly driven by increased levels of oxidative stress, has been observed, clearly demonstrating UPS and ALS dysregulation. Since the UPS and ALS are the two most important pathways for the removal of misfolded and aggregated proteins and also of damaged organelles, we provide here an overview on the current knowledge regarding the connection between the loss of proteostasis and skeletal muscle functional impairment and also how redox regulation can play a role during aging. Therefore, this review serves for a better understanding of skeletal muscle aging in regard to the loss of proteostasis and how redox regulation can impact its function and maintenance.
Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Aging; Oxidative stress; Proteasome and lysosome; Proteostasis; Redox regulation; Skeletal muscle

Year:  2018        PMID: 30194981     DOI: 10.1016/j.freeradbiomed.2018.08.037

Source DB:  PubMed          Journal:  Free Radic Biol Med        ISSN: 0891-5849            Impact factor:   7.376


  28 in total

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9.  Age-Related Maintenance of the Autophagy-Lysosomal System Is Dependent on Skeletal Muscle Type.

Authors:  Raquel Fernando; José Pedro Castro; Tanina Flore; Stefanie Deubel; Tilman Grune; Christiane Ott
Journal:  Oxid Med Cell Longev       Date:  2020-07-24       Impact factor: 6.543

10.  Non-enzymatic cleavage of Hsp90 by oxidative stress leads to actin aggregate formation: A novel gain-of-function mechanism.

Authors:  José Pedro Castro; Raquel Fernando; Sandra Reeg; Walter Meinl; Henrique Almeida; Tilman Grune
Journal:  Redox Biol       Date:  2019-01-11       Impact factor: 11.799
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