Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle

Friedreich’s ataxia (FRDA) is an inherited disorder caused by reduced levels of frataxin (FXN), which is required for iron-sulfur cluster biogenesis. Neurological and cardiac comorbidities are prominent and have been a major focus of study. Skeletal muscle has received less attention despite indicat...

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Autores principales: Vásquez-Trincado, César, Dunn, Julia, Han, Ji In, Hymms, Briyanna, Tamaroff, Jaclyn, Patel, Monika, Nguyen, Sara, Dedio, Anna, Wade, Kristin, Enigwe, Chinazo, Nichtova, Zuzana, Lynch, David R., Csordas, Gyorgy, McCormack, Shana E., Seifert, Erin L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9090249/
https://www.ncbi.nlm.nih.gov/pubmed/35531957
http://dx.doi.org/10.1172/jci.insight.155201
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author Vásquez-Trincado, César
Dunn, Julia
Han, Ji In
Hymms, Briyanna
Tamaroff, Jaclyn
Patel, Monika
Nguyen, Sara
Dedio, Anna
Wade, Kristin
Enigwe, Chinazo
Nichtova, Zuzana
Lynch, David R.
Csordas, Gyorgy
McCormack, Shana E.
Seifert, Erin L.
author_facet Vásquez-Trincado, César
Dunn, Julia
Han, Ji In
Hymms, Briyanna
Tamaroff, Jaclyn
Patel, Monika
Nguyen, Sara
Dedio, Anna
Wade, Kristin
Enigwe, Chinazo
Nichtova, Zuzana
Lynch, David R.
Csordas, Gyorgy
McCormack, Shana E.
Seifert, Erin L.
author_sort Vásquez-Trincado, César
collection PubMed
description Friedreich’s ataxia (FRDA) is an inherited disorder caused by reduced levels of frataxin (FXN), which is required for iron-sulfur cluster biogenesis. Neurological and cardiac comorbidities are prominent and have been a major focus of study. Skeletal muscle has received less attention despite indications that FXN loss affects it. Here, we show that lean mass is lower, whereas body mass index is unaltered, in separate cohorts of adults and children with FRDA. In adults, lower lean mass correlated with disease severity. To further investigate FXN loss in skeletal muscle, we used a transgenic mouse model of whole-body inducible and progressive FXN depletion. There was little impact of FXN loss when FXN was approximately 20% of control levels. When residual FXN was approximately 5% of control levels, muscle mass was lower along with absolute grip strength. When we examined mechanisms that can affect muscle mass, only global protein translation was lower, accompanied by integrated stress response (ISR) activation. Also in mice, aerobic exercise training, initiated prior to the muscle mass difference, improved running capacity, yet, muscle mass and the ISR remained as in untrained mice. Thus, FXN loss can lead to lower lean mass, with ISR activation, both of which are insensitive to exercise training.
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spelling pubmed-90902492022-05-13 Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle Vásquez-Trincado, César Dunn, Julia Han, Ji In Hymms, Briyanna Tamaroff, Jaclyn Patel, Monika Nguyen, Sara Dedio, Anna Wade, Kristin Enigwe, Chinazo Nichtova, Zuzana Lynch, David R. Csordas, Gyorgy McCormack, Shana E. Seifert, Erin L. JCI Insight Research Article Friedreich’s ataxia (FRDA) is an inherited disorder caused by reduced levels of frataxin (FXN), which is required for iron-sulfur cluster biogenesis. Neurological and cardiac comorbidities are prominent and have been a major focus of study. Skeletal muscle has received less attention despite indications that FXN loss affects it. Here, we show that lean mass is lower, whereas body mass index is unaltered, in separate cohorts of adults and children with FRDA. In adults, lower lean mass correlated with disease severity. To further investigate FXN loss in skeletal muscle, we used a transgenic mouse model of whole-body inducible and progressive FXN depletion. There was little impact of FXN loss when FXN was approximately 20% of control levels. When residual FXN was approximately 5% of control levels, muscle mass was lower along with absolute grip strength. When we examined mechanisms that can affect muscle mass, only global protein translation was lower, accompanied by integrated stress response (ISR) activation. Also in mice, aerobic exercise training, initiated prior to the muscle mass difference, improved running capacity, yet, muscle mass and the ISR remained as in untrained mice. Thus, FXN loss can lead to lower lean mass, with ISR activation, both of which are insensitive to exercise training. American Society for Clinical Investigation 2022-05-09 /pmc/articles/PMC9090249/ /pubmed/35531957 http://dx.doi.org/10.1172/jci.insight.155201 Text en © 2022 Vásquez-Trincado et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Vásquez-Trincado, César
Dunn, Julia
Han, Ji In
Hymms, Briyanna
Tamaroff, Jaclyn
Patel, Monika
Nguyen, Sara
Dedio, Anna
Wade, Kristin
Enigwe, Chinazo
Nichtova, Zuzana
Lynch, David R.
Csordas, Gyorgy
McCormack, Shana E.
Seifert, Erin L.
Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title_full Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title_fullStr Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title_full_unstemmed Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title_short Frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
title_sort frataxin deficiency lowers lean mass and triggers the integrated stress response in skeletal muscle
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9090249/
https://www.ncbi.nlm.nih.gov/pubmed/35531957
http://dx.doi.org/10.1172/jci.insight.155201
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