G5 Doctoral dissertation (article)
Muscle physiology and proteostasis : effects of changes in muscle size and exercise (2020)
Hentilä, J. (2020). Muscle physiology and proteostasis : effects of changes in muscle size and exercise [Doctoral dissertation]. Jyväskylän yliopisto. JYU dissertations, 208. http://urn.fi/URN:ISBN:978-951-39-8120-4
JYU authors or editors
Publication details
All authors or editors: Hentilä, Jaakko
eISBN: 978-951-39-8120-4
Journal or series: JYU dissertations
eISSN: 2489-9003
Publication year: 2020
Number in series: 208
Number of pages in the book: 1 verkkoaineisto (110 sivua, 50 sivua useina numerointijaksoina)
Publisher: Jyväskylän yliopisto
Place of Publication: Jyväskylä
Publication country: Finland
Publication language: English
Persistent website address: http://urn.fi/URN:ISBN:978-951-39-8120-4
Publication open access: Openly available
Publication channel open access: Open Access channel
Abstract
Proteostasis results from an equilibrium between the synthesis of functional and degradation of dysfunctional proteins. It is regulated by biological processes, including unfolded protein response (UPR) and autophagy. UPR tries to relieve endoplasmic reticulum (ER) stress that results from protein misfolding in ER and autophagy degrades cellular organelles and proteins. Autophagy and UPR have a pivotal role for skeletal muscle function, but the current knowledge how they are regulated by different conditions influencing muscle quality is limited. This thesis elucidated the effects of muscle wasting, hypertrophy and exercise on the markers of autophagy and UPR by measuring protein and mRNA expression in skeletal muscle. To elucidate the effects of muscle wasting, mdx and colon carcinoma 26 (C26) tumor-bearing mice were used to study muscular dystrophy and cancer cachexia, respectively. Additionally, the effects of muscle hypertrophy induced by blocking activin receptor ligands in healthy, cancer cachectic and dystrophic mdx mice were examined. Voluntary wheel running was also studied in mdx mice. In addition to experimental animal models, the acute (1 h and 48 h) and long-term effects (21 weeks) of resistance exercise and training (RE and RT, respectively) in young (26 ± 4 years) and older (61 ± 6 years) previously untrained men were elucidated. Furthermore, the effects of 20-week experimental training period (EX), in which strength training was integrated with sprint training, in master sprinter men (40–76 years) were studied. The main results of this thesis were that UPR is induced by muscular dystrophy, as well as by a single RE bout in young and older men. Additionally, muscle hypertrophy induced by activin receptor ligand blocking increased UPR markers in healthy mice, while this increase in UPR markers was not observed in muscle hypertrophy induced by the 21-week RT period in young and older men. Autophagosome content, marked by lipidated LC3 protein (LC3II), was increased in C26 cancer cachexia and by RE and RT in previously untrained young men, as well as in masters sprinters conducting long-term strength training in conjunction with sprint training. These results indicate that, as an adaptation to muscle hypertrophy, wasting and exercise UPR and autophagy are regulated distinctly in skeletal muscle depending on the context. These results may be applied in the future as a scientific basis to develop new strategies to prevent and treat muscle wasting and in offering evidence based exercise recommendations.
Keywords: physical training; strength training; muscles; physiology; muscle strength; muscle mass; proteins; tracers (indicators)
Free keywords: skeletal muscle; autophagy; proteostasis; hypertrophy; atrophy; ER stress; unfolded protein response; redox balance
Contributing organizations
Ministry reporting: Yes
Reporting Year: 2020
