SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation

BACKGROUND: Sepsis‐induced intensive care unit‐acquired weakness (ICUAW) features profound muscle atrophy and attenuated muscle regeneration related to malfunctioning satellite cells. Transforming growth factor beta (TGF‐β) is involved in both processes. We uncovered an increased expression of the T...

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Autores principales: Li, Yi, Dörmann, Niklas, Brinschwitz, Björn, Kny, Melanie, Martin, Elisa, Bartels, Kirsten, Li, Ning, Giri, Priyanka Voori, Schwanz, Stefan, Boschmann, Michael, Hille, Susanne, Fielitz, Britta, Wollersheim, Tobias, Grunow, Julius, Felix, Stephan B., Weber‐Carstens, Steffen, Luft, Friedrich C., Müller, Oliver J., Fielitz, Jens
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2023
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10401548/
https://www.ncbi.nlm.nih.gov/pubmed/37209006
http://dx.doi.org/10.1002/jcsm.13252
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author Li, Yi
Dörmann, Niklas
Brinschwitz, Björn
Kny, Melanie
Martin, Elisa
Bartels, Kirsten
Li, Ning
Giri, Priyanka Voori
Schwanz, Stefan
Boschmann, Michael
Hille, Susanne
Fielitz, Britta
Wollersheim, Tobias
Grunow, Julius
Felix, Stephan B.
Weber‐Carstens, Steffen
Luft, Friedrich C.
Müller, Oliver J.
Fielitz, Jens
author_facet Li, Yi
Dörmann, Niklas
Brinschwitz, Björn
Kny, Melanie
Martin, Elisa
Bartels, Kirsten
Li, Ning
Giri, Priyanka Voori
Schwanz, Stefan
Boschmann, Michael
Hille, Susanne
Fielitz, Britta
Wollersheim, Tobias
Grunow, Julius
Felix, Stephan B.
Weber‐Carstens, Steffen
Luft, Friedrich C.
Müller, Oliver J.
Fielitz, Jens
author_sort Li, Yi
collection PubMed
description BACKGROUND: Sepsis‐induced intensive care unit‐acquired weakness (ICUAW) features profound muscle atrophy and attenuated muscle regeneration related to malfunctioning satellite cells. Transforming growth factor beta (TGF‐β) is involved in both processes. We uncovered an increased expression of the TGF‐β receptor II (TβRII)‐inhibitor SPRY domain‐containing and SOCS‐box protein 1 (SPSB1) in skeletal muscle of septic mice. We hypothesized that SPSB1‐mediated inhibition of TβRII signalling impairs myogenic differentiation in response to inflammation. METHODS: We performed gene expression analyses in skeletal muscle of cecal ligation and puncture‐ (CLP) and sham‐operated mice, as well as vastus lateralis of critically ill and control patients. Pro‐inflammatory cytokines and specific pathway inhibitors were used to quantitate Spsb1 expression in myocytes. Retroviral expression plasmids were used to investigate the effects of SPSB1 on TGF‐β/TβRII signalling and myogenesis in primary and immortalized myoblasts and differentiated myotubes. For mechanistical analyses we used coimmunoprecipitation, ubiquitination, protein half‐life, and protein synthesis assays. Differentiation and fusion indices were determined by immunocytochemistry, and differentiation factors were quantified by qRT‐PCR and Western blot analyses. RESULTS: SPSB1 expression was increased in skeletal muscle of ICUAW patients and septic mice. Tumour necrosis factor (TNF), interleukin‐1β (IL‐1β), and IL‐6 increased the Spsb1 expression in C2C12 myotubes. TNF‐ and IL‐1β‐induced Spsb1 expression was mediated by NF‐κB, whereas IL‐6 increased the Spsb1 expression via the glycoprotein 130/JAK2/STAT3 pathway. All cytokines reduced myogenic differentiation. SPSB1 avidly interacted with TβRII, resulting in TβRII ubiquitination and destabilization. SPSB1 impaired TβRII‐Akt‐Myogenin signalling and diminished protein synthesis in myocytes. Overexpression of SPSB1 decreased the expression of early (Myog, Mymk, Mymx) and late (Myh1, 3, 7) differentiation‐markers. As a result, myoblast fusion and myogenic differentiation were impaired. These effects were mediated by the SPRY‐ and SOCS‐box domains of SPSB1. Co‐expression of SPSB1 with Akt or Myogenin reversed the inhibitory effects of SPSB1 on protein synthesis and myogenic differentiation. Downregulation of Spsb1 by AAV9‐mediated shRNA attenuated muscle weight loss and atrophy gene expression in skeletal muscle of septic mice. CONCLUSIONS: Inflammatory cytokines via their respective signalling pathways cause an increase in SPSB1 expression in myocytes and attenuate myogenic differentiation. SPSB1‐mediated inhibition of TβRII‐Akt‐Myogenin signalling and protein synthesis contributes to a disturbed myocyte homeostasis and myogenic differentiation that occurs during inflammation.
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spelling pubmed-104015482023-08-05 SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation Li, Yi Dörmann, Niklas Brinschwitz, Björn Kny, Melanie Martin, Elisa Bartels, Kirsten Li, Ning Giri, Priyanka Voori Schwanz, Stefan Boschmann, Michael Hille, Susanne Fielitz, Britta Wollersheim, Tobias Grunow, Julius Felix, Stephan B. Weber‐Carstens, Steffen Luft, Friedrich C. Müller, Oliver J. Fielitz, Jens J Cachexia Sarcopenia Muscle Original Articles BACKGROUND: Sepsis‐induced intensive care unit‐acquired weakness (ICUAW) features profound muscle atrophy and attenuated muscle regeneration related to malfunctioning satellite cells. Transforming growth factor beta (TGF‐β) is involved in both processes. We uncovered an increased expression of the TGF‐β receptor II (TβRII)‐inhibitor SPRY domain‐containing and SOCS‐box protein 1 (SPSB1) in skeletal muscle of septic mice. We hypothesized that SPSB1‐mediated inhibition of TβRII signalling impairs myogenic differentiation in response to inflammation. METHODS: We performed gene expression analyses in skeletal muscle of cecal ligation and puncture‐ (CLP) and sham‐operated mice, as well as vastus lateralis of critically ill and control patients. Pro‐inflammatory cytokines and specific pathway inhibitors were used to quantitate Spsb1 expression in myocytes. Retroviral expression plasmids were used to investigate the effects of SPSB1 on TGF‐β/TβRII signalling and myogenesis in primary and immortalized myoblasts and differentiated myotubes. For mechanistical analyses we used coimmunoprecipitation, ubiquitination, protein half‐life, and protein synthesis assays. Differentiation and fusion indices were determined by immunocytochemistry, and differentiation factors were quantified by qRT‐PCR and Western blot analyses. RESULTS: SPSB1 expression was increased in skeletal muscle of ICUAW patients and septic mice. Tumour necrosis factor (TNF), interleukin‐1β (IL‐1β), and IL‐6 increased the Spsb1 expression in C2C12 myotubes. TNF‐ and IL‐1β‐induced Spsb1 expression was mediated by NF‐κB, whereas IL‐6 increased the Spsb1 expression via the glycoprotein 130/JAK2/STAT3 pathway. All cytokines reduced myogenic differentiation. SPSB1 avidly interacted with TβRII, resulting in TβRII ubiquitination and destabilization. SPSB1 impaired TβRII‐Akt‐Myogenin signalling and diminished protein synthesis in myocytes. Overexpression of SPSB1 decreased the expression of early (Myog, Mymk, Mymx) and late (Myh1, 3, 7) differentiation‐markers. As a result, myoblast fusion and myogenic differentiation were impaired. These effects were mediated by the SPRY‐ and SOCS‐box domains of SPSB1. Co‐expression of SPSB1 with Akt or Myogenin reversed the inhibitory effects of SPSB1 on protein synthesis and myogenic differentiation. Downregulation of Spsb1 by AAV9‐mediated shRNA attenuated muscle weight loss and atrophy gene expression in skeletal muscle of septic mice. CONCLUSIONS: Inflammatory cytokines via their respective signalling pathways cause an increase in SPSB1 expression in myocytes and attenuate myogenic differentiation. SPSB1‐mediated inhibition of TβRII‐Akt‐Myogenin signalling and protein synthesis contributes to a disturbed myocyte homeostasis and myogenic differentiation that occurs during inflammation. John Wiley and Sons Inc. 2023-05-20 /pmc/articles/PMC10401548/ /pubmed/37209006 http://dx.doi.org/10.1002/jcsm.13252 Text en © 2023 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of Society on Sarcopenia, Cachexia and Wasting Disorders. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Li, Yi
Dörmann, Niklas
Brinschwitz, Björn
Kny, Melanie
Martin, Elisa
Bartels, Kirsten
Li, Ning
Giri, Priyanka Voori
Schwanz, Stefan
Boschmann, Michael
Hille, Susanne
Fielitz, Britta
Wollersheim, Tobias
Grunow, Julius
Felix, Stephan B.
Weber‐Carstens, Steffen
Luft, Friedrich C.
Müller, Oliver J.
Fielitz, Jens
SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title_full SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title_fullStr SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title_full_unstemmed SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title_short SPSB1‐mediated inhibition of TGF‐β receptor‐II impairs myogenesis in inflammation
title_sort spsb1‐mediated inhibition of tgf‐β receptor‐ii impairs myogenesis in inflammation
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10401548/
https://www.ncbi.nlm.nih.gov/pubmed/37209006
http://dx.doi.org/10.1002/jcsm.13252
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