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Plasminogen deficiency exacerbates skeletal muscle loss during mechanical unloading in developing mice.
Ohira, Takashi; Ino, Yoko; Kawao, Naoyuki; Mizukami, Yuya; Okada, Kiyotaka; Matsuo, Osamu; Hirano, Hisashi; Kimura, Yayoi; Kaji, Hiroshi.
Afiliação
  • Ohira T; Department of Physiology and Regenerative Medicine, Kindai University Faculty of Medicine, Osaka, Japan.
  • Ino Y; Advanced Medical Research Center, Yokohama City University, Kanagawa, Japan.
  • Kawao N; Advanced Medical Research Center, Yokohama City University, Kanagawa, Japan.
  • Mizukami Y; Department of Physiology and Regenerative Medicine, Kindai University Faculty of Medicine, Osaka, Japan.
  • Okada K; Department of Physiology and Regenerative Medicine, Kindai University Faculty of Medicine, Osaka, Japan.
  • Matsuo O; Department of Physiology and Regenerative Medicine, Kindai University Faculty of Medicine, Osaka, Japan.
  • Hirano H; Department of Physiology and Regenerative Medicine, Kindai University Faculty of Medicine, Osaka, Japan.
  • Kimura Y; Advanced Medical Research Center, Yokohama City University, Kanagawa, Japan.
  • Kaji H; Advanced Medical Research Center, Yokohama City University, Kanagawa, Japan.
J Appl Physiol (1985) ; 136(3): 643-658, 2024 Mar 01.
Article em En | MEDLINE | ID: mdl-38328826
ABSTRACT
Mechanical-unloading-induced skeletal muscle atrophy results in physical frailty and disability. Elucidating its mechanism is required to establish effective countermeasures for this muscle adaptation. First, we analyzed the proteome profile in the gastrocnemius (Gast) and soleus muscles of space-flown mice raised under microgravity or artificial 1-g for 30 days, and found that the expression levels of fibrinolysis-related proteins were significantly elevated in the mechanical-unloaded muscles. Next, we investigated the roles of the fibrinolytic system in skeletal muscle atrophy induced by mechanical unloading on the ground. Eight-week-old male mice with plasminogen gene deficiency (Plg-/-) and their wild-type littermates were divided into control and hindlimb-suspended groups and were raised for 21 days. Plasminogen deficiency significantly enhanced the decrease in muscle mass at the lower limbs of mice following hindlimb unloading, and the Gast muscle atrophy was more prominent in Plg-/- mice. In addition, plasminogen deficiency significantly increased the expression of autophagy-related markers, beclin1 mRNA and LC3B protein, in the mechanical-unloaded Gast muscles, but did not affect the increase in the gene expression of ubiquitin ligases, atrogin-1 and MuRF1. Neither plasminogen deficiency nor hindlimb unloading affected the Akt/mechanistic target of rapamycin pathway in the Gast muscles. These results suggested that plasminogen deficiency might accelerate protein breakdown via the autophagy-lysosome, but not the ubiquitin-proteasome, system in the mechanical-unloaded Gast muscles. In conclusion, we first showed that plasminogen deficiency exacerbated the Gast muscle atrophy in hindlimb-unloaded mice. Plasminogen and the fibrinolysis system might play some protective roles against muscle atrophy induced by mechanical unloading in developing mice.NEW & NOTEWORTHY The expression levels of fibrinolysis-related proteins, including plasminogen, were significantly elevated in the gastrocnemius (Gast) and soleus muscles of mice following 30-day microgravity exposure. Plasminogen deficiency exacerbated atrophy of the Gast, but not the soleus, muscles in mice following 21-day hindlimb suspension. It was also suggested that protein breakdown via the autophagy-lysosome system was accelerated in the Gast muscles. Plasminogen might play some protective roles against muscle atrophy induced by mechanical unloading in developing mice.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Músculo Esquelético / Proteínas Musculares Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Músculo Esquelético / Proteínas Musculares Idioma: En Ano de publicação: 2024 Tipo de documento: Article