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FoxO maintains a genuine muscle stem-cell quiescent state until geriatric age

by Hong, Xiaotong , Jiang, Kan , Ortet Laura , Perdiguero Eusebio , Jardí Mercè , Ruiz-Bonilla, Vanessa , Moiseeva Victoria , Campanario Silvia , Dell’Orso Stefania , del Sol Antonio , Ravichandran Srikanth , Flández Marta , Sartorelli Vittorio , Hong-Wei, Sun , Sandri, Marco , García-Prat, Laura , Musarò Antonio , Alonso-Martín, Sonia , Brooks, Stephen R , Muñoz-Cánoves Pura , Rebollo Elena , Juan, Aster H

in Age / Aging / AKT protein / CD34 antigen / Forkhead protein / Geriatrics / Heterogeneity / Inactivation / Insulin-like growth factor I / Muscles / Musculoskeletal system / Regeneration / Skeletal muscle / Stem cell transplantation / Stem cells / Tissue engineering / Transcription

2020

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2020

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2020

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Journal Article

FoxO maintains a genuine muscle stem-cell quiescent state until geriatric age

Hong, Xiaotong,

Jiang, Kan,

Ortet Laura,

Perdiguero Eusebio,

Jardí Mercè,

Ruiz-Bonilla, Vanessa,

Moiseeva Victoria,

Campanario Silvia,

Dell’Orso Stefania,

del Sol Antonio,

Ravichandran Srikanth,

Flández Marta,

Sartorelli Vittorio,

Hong-Wei, Sun,

Sandri, Marco,

García-Prat, Laura,

Musarò Antonio,

Alonso-Martín, Sonia,

Brooks, Stephen R,

Muñoz-Cánoves Pura,

Rebollo Elena,

Juan, Aster H

2020

Overview

Tissue regeneration declines with ageing but little is known about whether this arises from changes in stem-cell heterogeneity. Here, in homeostatic skeletal muscle, we identify two quiescent stem-cell states distinguished by relative CD34 expression: CD34High, with stemness properties (genuine state), and CD34Low, committed to myogenic differentiation (primed state). The genuine-quiescent state is unexpectedly preserved into later life, succumbing only in extreme old age due to the acquisition of primed-state traits. Niche-derived IGF1-dependent Akt activation debilitates the genuine stem-cell state by imposing primed-state features via FoxO inhibition. Interventions to neutralize Akt and promote FoxO activity drive a primed-to-genuine state conversion, whereas FoxO inactivation deteriorates the genuine state at a young age, causing regenerative failure of muscle, as occurs in geriatric mice. These findings reveal transcriptional determinants of stem-cell heterogeneity that resist ageing more than previously anticipated and are only lost in extreme old age, with implications for the repair of geriatric muscle.García-Prat, Perdiguero, Alonso-Martín et al. show that skeletal muscle contains a subpopulation of quiescent stem cells, maintained by FoxO signalling, that is preserved into late life but declines in advanced geriatric age.

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Publisher

Nature Publishing Group

Subject

/ Aging