GRSF1 deficiency in skeletal muscle reduces endurance in aged mice

GRSF1 deficiency in skeletal muscle reduces endurance in aged mice

GRSF1 is a mitochondrial RNA-binding protein important for maintaining mitochondrial function. We found that GRSF1 is highly expressed in cultured skeletal myoblasts differentiating into myotubes. To understand the physiological function of GRSF1 in vivo, we generated mice in which GRSF1 was specifi...

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Veröffentlicht in:Aging (Albany, NY.) NY.), 2021-06, Vol.13 (11), p.14557-14570
Hauptverfasser: Driscoll, Riley K., Krasniewski, Linda K., Cockey, Samuel G., Yang, Jen-Hao, Piao, Yulan, Lehrmann, Elin, Zhang, Yongqing, Michel, Marc, Noh, Ji Heon, Cui, Chang-Yi, Gorospe, Myriam
Format: Artikel
Sprache:eng
Schlagworte:
Aging - metabolism
Animals
Cell Biology
Cell Differentiation - genetics
Gene Expression Profiling
Gene Expression Regulation
Geriatrics & Gerontology
Life Sciences & Biomedicine
Mice
Mice, Inbred C57BL
Mice, Knockout
Muscle Cells - metabolism
Muscle Development - genetics
Muscle, Skeletal - metabolism
Physical Endurance
Poly(A)-Binding Proteins - deficiency
Poly(A)-Binding Proteins - metabolism
Priority Research Paper
Reactive Oxygen Species - metabolism
RNA, Messenger - genetics
RNA, Messenger - metabolism
Science & Technology
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Zusammenfassung:GRSF1 is a mitochondrial RNA-binding protein important for maintaining mitochondrial function. We found that GRSF1 is highly expressed in cultured skeletal myoblasts differentiating into myotubes. To understand the physiological function of GRSF1 in vivo, we generated mice in which GRSF1 was specifically ablated in skeletal muscle. The conditional knockout mice (Grsf1cKO) appeared normal until 7-9 months of age. Importantly, however, a reduction of muscle endurance compared to wild-type controls was observed in 16- to 18-month old Grsf1cKO mice. Transcriptomic analysis revealed more than 200 mRNAs differentially expressed in Grsf1cKO muscle at this age. Notably, mRNAs encoding proteins involved in mitochondrial function, inflammation, and ion transport, including Mgarp, Cxcl10, Nfkb2, and Sln mRNAs, were significantly elevated in aged Grsf1cKO muscle. Our findings suggest that GRSF1 deficiency exacerbates the functional decline of aged skeletal muscle, likely through multiple downstream effector proteins.
ISSN:1945-4589
1945-4589
DOI:10.18632/aging.203151