Ectopic fat deposition in skeletal muscle (SKM) due to obesity leads to biochemical and morphological alterations that deteriorate SKM quality and performance. Here, we show that impaired MPST-derived hydrogen sulfide (H2S) signaling contributes to obesity-related SKM dysfunction. Muscle tissues from obese db/db mice exhibit reduced MPST expression, correlating with decreased protein persulfidation and muscle performance in vivo. Mpst−/− mice show similar deficits as db/db mice, confirming the role of MPST. H2S supplementation improves locomotor activity in db/db mice and restores protein persulfidation, including SIRT-1. Myotubes placed in an “obese environment” display a downregulation of MPST, coupled with a reduced SIRT-1 persulfidation leading to an inflammatory state. Exogenous H2S exerts beneficial effects recovering SIRT-1 persulfidation/activity. Finally, muscle biopsies from obese individuals show reduced MPST expression, underscoring the translational relevance to human SKM health. Our study unveils a crucial role for MPST-derived H2S in obesity-associated SKM dysfunction via SIRT-1 persulfidation, highlighting the importance of the MPST/H2S pathway in maintaining healthy SKM function.
Defective protein persulfidation is involved in obesity associated skeletal muscle dysfunction. Role of SIRT-1 / Smimmo, M; Casale, V; D'Andrea, D; Bello, I; Iaccarino, N; Romano, F; Brancaleone, V; Panza, E; D'Emmanuele Di Villa Bianca, R; Katsouda, A; Mitidieri, E; Antoniadou, I; Papapetropoulos, A; Maione, F; Castaldo, S; Friuli, M; Romano, A; Gaetani, S; Sorrentino, R; Randazzo, A; Cirino, G; Bucci, M; Filipovic, M; Vellecco, V. - In: REDOX BIOLOGY. - ISSN 2213-2317. - 83:(2025), pp. 1-17. [10.1016/j.redox.2025.103645]
Defective protein persulfidation is involved in obesity associated skeletal muscle dysfunction. Role of SIRT-1
Friuli, M;Romano, A;Gaetani, S;
2025
Abstract
Ectopic fat deposition in skeletal muscle (SKM) due to obesity leads to biochemical and morphological alterations that deteriorate SKM quality and performance. Here, we show that impaired MPST-derived hydrogen sulfide (H2S) signaling contributes to obesity-related SKM dysfunction. Muscle tissues from obese db/db mice exhibit reduced MPST expression, correlating with decreased protein persulfidation and muscle performance in vivo. Mpst−/− mice show similar deficits as db/db mice, confirming the role of MPST. H2S supplementation improves locomotor activity in db/db mice and restores protein persulfidation, including SIRT-1. Myotubes placed in an “obese environment” display a downregulation of MPST, coupled with a reduced SIRT-1 persulfidation leading to an inflammatory state. Exogenous H2S exerts beneficial effects recovering SIRT-1 persulfidation/activity. Finally, muscle biopsies from obese individuals show reduced MPST expression, underscoring the translational relevance to human SKM health. Our study unveils a crucial role for MPST-derived H2S in obesity-associated SKM dysfunction via SIRT-1 persulfidation, highlighting the importance of the MPST/H2S pathway in maintaining healthy SKM function.| File | Dimensione | Formato | |
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