The GSK-3β-FBXL21 Axis Contributes to Circadian TCAP Degradation and Skeletal Muscle Function | Zendy

Marvin Wirianto | Zendy; Jiah Yang | Zendy; Eunju Kim | Zendy; Song Gao | Zendy; Keshav Raj Paudel | Zendy; Jong Min Choi | Zendy; Jeehwan Choe | Zendy; Gabrielle F. Gloston | Zendy; Precious Ademoji | Zendy; Randika Parakramaweera | Zendy; Jianping Jin | Zendy; Karyn A. Esser | Zendy; Sung Yun Jung | Zendy; YongJian Geng | Zendy; Hyun Kyoung Lee | Zendy; Zheng Chen | Zendy; SeungHee Yoo | Zendy

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The GSK-3β-FBXL21 Axis Contributes to Circadian TCAP Degradation and Skeletal Muscle Function

Author(s) -

Marvin Wirianto,

Jiah Yang,

Eunju Kim,

Song Gao,

Keshav Raj Paudel,

Jong Min Choi,

Jeehwan Choe,

Gabrielle F. Gloston,

Precious Ademoji,

Randika Parakramaweera,

Jianping Jin,

Karyn A. Esser,

Sung Yun Jung,

YongJian Geng,

Hyun Kyoung Lee,

Zheng Chen,

SeungHee Yoo

Publication year - 2020

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2020.108140

Subject(s) - circadian rhythm , skeletal muscle , circadian clock , microbiology and biotechnology , ubiquitin ligase , protein degradation , medicine , endocrinology , biology , gene knockdown , chemistry , ubiquitin , biochemistry , gene , apoptosis

SUMMARY FBXL21 is a clock-controlled E3 ligase modulating circadian periodicity via subcellular-specific CRYPTOCHROME degradation. How FBXL21 regulates tissue-specific circadian physiology and what mechanism operates upstream is poorly understood. Here we report the sarcomere component TCAP as a cytoplasmic substrate of FBXL21. FBXL21 interacts with TCAP in a circadian manner antiphasic to TCAP accumulation in skeletal muscle, and circadian TCAP oscillation is disrupted in Psttm mice with an Fbxl21 hypomorph mutation. GSK-3β phosphorylates FBXL21 and TCAP to activate FBXL21-mediated, phosphodegron-dependent TCAP degradation. GSK-3β inhibition or knockdown diminishes FBXL21-Cul1 complex formation and delays FBXL21-mediated TCAP degradation. Finally, Psttm mice show significant skeletal muscle defects, including impaired fiber size, exercise tolerance, grip strength, and response to glucocorticoid-induced atrophy, in conjunction with cardiac dysfunction. These data highlight a circadian regulatory pathway where a GSK-3β-FBXL21 functional axis controls TCAP degradation via SCF complex formation and regulates skeletal muscle function.

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