Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains

M. Di Rienzo; M. Antonioli; C. Fusco; Y. Liu; M. Mari; I. Orhon; G. Refolo; F. Germani; M. Corazzari; A. Romagnoli; F. Ciccosanti; B. Mandriani; M. T. Pellico; R. De La Torre; H. Ding; M. Dentice; M. Neri; A. Ferlini; F. Reggiori; M. Kulesz-Martin; M. Piacentini; G. Merla; G. M. Fimia

doi:10.1126/sciadv.aau8857

Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains

M. Di Rienzo, M. Antonioli, C. Fusco, Y. Liu, M. Mari, I. Orhon, G. Refolo, F. Germani, M. Corazzari, A. Romagnoli, F. Ciccosanti, B. Mandriani, M. T. Pellico, R. De La Torre, H. Ding, M. Dentice, M. Neri, A. Ferlini, F. Reggiori, M. Kulesz-MartinM. Piacentini, G. Merla, G. M. Fimia

Dipartimento di Scienze della Salute

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Optimal autophagic activity is crucial to maintain muscle integrity, with either reduced or excessive levels leading to specific myopathies. LGMD2H is a muscle dystrophy caused by mutations in the ubiquitin ligase TRIM32, whose function in muscles remains not fully understood. Here, we show that TRIM32 is required for the induction of muscle autophagy in atrophic conditions using both in vitro and in vivo mouse models. Trim32 inhibition results in a defective autophagy response to muscle atrophy, associated with increased ROS and MuRF1 levels. The proautophagic function of TRIM32 relies on its ability to bind the autophagy proteins AMBRA1 and ULK1 and stimulate ULK1 activity via unanchored K63-linked polyubiquitin. LGMD2H-causative mutations impair TRIM32's ability to bind ULK1 and induce autophagy. Collectively, our study revealed a role for TRIM32 in the regulation of muscle autophagy in response to atrophic stimuli, uncovering a previously unidentified mechanism by which ubiquitin ligases activate autophagy regulators.

Lingua originale	Inglese
Numero di articolo	eaau8857
Rivista	Science advances
Volume	5
Numero di pubblicazione	5
DOI	https://doi.org/10.1126/sciadv.aau8857
Stato di pubblicazione	Pubblicato - 2019

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10.1126/sciadv.aau8857

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Di Rienzo, M., Antonioli, M., Fusco, C., Liu, Y., Mari, M., Orhon, I., Refolo, G., Germani, F., Corazzari, M., Romagnoli, A., Ciccosanti, F., Mandriani, B., Pellico, M. T., De La Torre, R., Ding, H., Dentice, M., Neri, M., Ferlini, A., Reggiori, F., ... Fimia, G. M. (2019). Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains. Science advances, 5(5), Articolo eaau8857. https://doi.org/10.1126/sciadv.aau8857

@article{e00b6c168ed84630b303c44926fd52ff,

title = "Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains",

abstract = "Optimal autophagic activity is crucial to maintain muscle integrity, with either reduced or excessive levels leading to specific myopathies. LGMD2H is a muscle dystrophy caused by mutations in the ubiquitin ligase TRIM32, whose function in muscles remains not fully understood. Here, we show that TRIM32 is required for the induction of muscle autophagy in atrophic conditions using both in vitro and in vivo mouse models. Trim32 inhibition results in a defective autophagy response to muscle atrophy, associated with increased ROS and MuRF1 levels. The proautophagic function of TRIM32 relies on its ability to bind the autophagy proteins AMBRA1 and ULK1 and stimulate ULK1 activity via unanchored K63-linked polyubiquitin. LGMD2H-causative mutations impair TRIM32's ability to bind ULK1 and induce autophagy. Collectively, our study revealed a role for TRIM32 in the regulation of muscle autophagy in response to atrophic stimuli, uncovering a previously unidentified mechanism by which ubiquitin ligases activate autophagy regulators.",

author = "\{Di Rienzo\}, M. and M. Antonioli and C. Fusco and Y. Liu and M. Mari and I. Orhon and G. Refolo and F. Germani and M. Corazzari and A. Romagnoli and F. Ciccosanti and B. Mandriani and Pellico, \{M. T.\} and \{De La Torre\}, R. and H. Ding and M. Dentice and M. Neri and A. Ferlini and F. Reggiori and M. Kulesz-Martin and M. Piacentini and G. Merla and Fimia, \{G. M.\}",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors.",

year = "2019",

doi = "10.1126/sciadv.aau8857",

language = "English",

volume = "5",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "5",

}

Di Rienzo, M, Antonioli, M, Fusco, C, Liu, Y, Mari, M, Orhon, I, Refolo, G, Germani, F, Corazzari, M, Romagnoli, A, Ciccosanti, F, Mandriani, B, Pellico, MT, De La Torre, R, Ding, H, Dentice, M, Neri, M, Ferlini, A, Reggiori, F, Kulesz-Martin, M, Piacentini, M, Merla, G & Fimia, GM 2019, 'Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains', Science advances, vol. 5, n. 5, eaau8857. https://doi.org/10.1126/sciadv.aau8857

TY - JOUR

T1 - Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains

AU - Di Rienzo, M.

AU - Antonioli, M.

AU - Fusco, C.

AU - Liu, Y.

AU - Mari, M.

AU - Orhon, I.

AU - Refolo, G.

AU - Germani, F.

AU - Corazzari, M.

AU - Romagnoli, A.

AU - Ciccosanti, F.

AU - Mandriani, B.

AU - Pellico, M. T.

AU - De La Torre, R.

AU - Ding, H.

AU - Dentice, M.

AU - Neri, M.

AU - Ferlini, A.

AU - Reggiori, F.

AU - Kulesz-Martin, M.

AU - Piacentini, M.

AU - Merla, G.

AU - Fimia, G. M.

PY - 2019

Y1 - 2019

N2 - Optimal autophagic activity is crucial to maintain muscle integrity, with either reduced or excessive levels leading to specific myopathies. LGMD2H is a muscle dystrophy caused by mutations in the ubiquitin ligase TRIM32, whose function in muscles remains not fully understood. Here, we show that TRIM32 is required for the induction of muscle autophagy in atrophic conditions using both in vitro and in vivo mouse models. Trim32 inhibition results in a defective autophagy response to muscle atrophy, associated with increased ROS and MuRF1 levels. The proautophagic function of TRIM32 relies on its ability to bind the autophagy proteins AMBRA1 and ULK1 and stimulate ULK1 activity via unanchored K63-linked polyubiquitin. LGMD2H-causative mutations impair TRIM32's ability to bind ULK1 and induce autophagy. Collectively, our study revealed a role for TRIM32 in the regulation of muscle autophagy in response to atrophic stimuli, uncovering a previously unidentified mechanism by which ubiquitin ligases activate autophagy regulators.

AB - Optimal autophagic activity is crucial to maintain muscle integrity, with either reduced or excessive levels leading to specific myopathies. LGMD2H is a muscle dystrophy caused by mutations in the ubiquitin ligase TRIM32, whose function in muscles remains not fully understood. Here, we show that TRIM32 is required for the induction of muscle autophagy in atrophic conditions using both in vitro and in vivo mouse models. Trim32 inhibition results in a defective autophagy response to muscle atrophy, associated with increased ROS and MuRF1 levels. The proautophagic function of TRIM32 relies on its ability to bind the autophagy proteins AMBRA1 and ULK1 and stimulate ULK1 activity via unanchored K63-linked polyubiquitin. LGMD2H-causative mutations impair TRIM32's ability to bind ULK1 and induce autophagy. Collectively, our study revealed a role for TRIM32 in the regulation of muscle autophagy in response to atrophic stimuli, uncovering a previously unidentified mechanism by which ubiquitin ligases activate autophagy regulators.

UR - https://www.scopus.com/pages/publications/85065602274

U2 - 10.1126/sciadv.aau8857

DO - 10.1126/sciadv.aau8857

M3 - Article

SN - 2375-2548

VL - 5

JO - Science advances

JF - Science advances

IS - 5

M1 - eaau8857

ER -

Autophagy induction in atrophic muscle cells requires ULK1 activation by TRIM32 through unanchored K63-linked polyubiquitin chains

Abstract

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