Nuclear F-Actin assembly on damaged chromatin is regulated by DYRK1A and Spir1 phosphorylation

Junshi Li; Nan Xiong; Kirk L. West; Manton Leung; Yick Pang Ching; Jun Huang; Jian Yuan; Cheng Han Yu; Justin Leung; Michael Huen

doi:10.1093/nar/gkae574

Nuclear F-Actin assembly on damaged chromatin is regulated by DYRK1A and Spir1 phosphorylation

Junshi Li, Nan Xiong, Kirk L. West, Manton Leung, Yick Pang Ching, Jun Huang, Jian Yuan, Cheng Han Yu, Justin Leung, Michael Huen

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Resumen

Nuclear actin-based movements support DNA double-strand break (DSB) repair. However, molecular determinants that promote filamentous actin (F-Actin) formation on the damaged chromatin remain undefined. Here we describe the DYRK1A kinase as a nuclear activity that promotes local F-Actin assembly to support DSB mobility and repair, accomplished in part by its targeting of actin nucleator spire homolog 1 (Spir1). Indeed, perturbing DYRK1A-dependent phosphorylation of S482 mis-regulated Spir1 accumulation at damaged-modified chromatin, and led to compromised DSB-Associated actin polymerization and attenuated DNA repair. Our findings uncover a role of the DYRK1A-Spir1 axis in nuclear actin dynamics during early DSB responses, and highlight the intricate details of nuclear cytoskeletal network in DSB repair and genome stability maintenance.

Idioma original	English (US)
Páginas (desde-hasta)	8897-8912
Número de páginas	16
Publicación	Nucleic acids research
Volumen	52
N.º	15
DOI	https://doi.org/10.1093/nar/gkae574
Estado	Published - ago 27 2024
Publicado de forma externa	Sí

ASJC Scopus subject areas

Genetics

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title = "Nuclear F-Actin assembly on damaged chromatin is regulated by DYRK1A and Spir1 phosphorylation",

abstract = "Nuclear actin-based movements support DNA double-strand break (DSB) repair. However, molecular determinants that promote filamentous actin (F-Actin) formation on the damaged chromatin remain undefined. Here we describe the DYRK1A kinase as a nuclear activity that promotes local F-Actin assembly to support DSB mobility and repair, accomplished in part by its targeting of actin nucleator spire homolog 1 (Spir1). Indeed, perturbing DYRK1A-dependent phosphorylation of S482 mis-regulated Spir1 accumulation at damaged-modified chromatin, and led to compromised DSB-Associated actin polymerization and attenuated DNA repair. Our findings uncover a role of the DYRK1A-Spir1 axis in nuclear actin dynamics during early DSB responses, and highlight the intricate details of nuclear cytoskeletal network in DSB repair and genome stability maintenance.",

author = "Junshi Li and Nan Xiong and West, {Kirk L.} and Manton Leung and Ching, {Yick Pang} and Jun Huang and Jian Yuan and Yu, {Cheng Han} and Justin Leung and Michael Huen",

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doi = "10.1093/nar/gkae574",

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T1 - Nuclear F-Actin assembly on damaged chromatin is regulated by DYRK1A and Spir1 phosphorylation

AU - Li, Junshi

AU - Xiong, Nan

AU - West, Kirk L.

AU - Leung, Manton

AU - Ching, Yick Pang

AU - Huang, Jun

AU - Yuan, Jian

AU - Yu, Cheng Han

AU - Leung, Justin

AU - Huen, Michael

PY - 2024/8/27

Y1 - 2024/8/27

N2 - Nuclear actin-based movements support DNA double-strand break (DSB) repair. However, molecular determinants that promote filamentous actin (F-Actin) formation on the damaged chromatin remain undefined. Here we describe the DYRK1A kinase as a nuclear activity that promotes local F-Actin assembly to support DSB mobility and repair, accomplished in part by its targeting of actin nucleator spire homolog 1 (Spir1). Indeed, perturbing DYRK1A-dependent phosphorylation of S482 mis-regulated Spir1 accumulation at damaged-modified chromatin, and led to compromised DSB-Associated actin polymerization and attenuated DNA repair. Our findings uncover a role of the DYRK1A-Spir1 axis in nuclear actin dynamics during early DSB responses, and highlight the intricate details of nuclear cytoskeletal network in DSB repair and genome stability maintenance.

AB - Nuclear actin-based movements support DNA double-strand break (DSB) repair. However, molecular determinants that promote filamentous actin (F-Actin) formation on the damaged chromatin remain undefined. Here we describe the DYRK1A kinase as a nuclear activity that promotes local F-Actin assembly to support DSB mobility and repair, accomplished in part by its targeting of actin nucleator spire homolog 1 (Spir1). Indeed, perturbing DYRK1A-dependent phosphorylation of S482 mis-regulated Spir1 accumulation at damaged-modified chromatin, and led to compromised DSB-Associated actin polymerization and attenuated DNA repair. Our findings uncover a role of the DYRK1A-Spir1 axis in nuclear actin dynamics during early DSB responses, and highlight the intricate details of nuclear cytoskeletal network in DSB repair and genome stability maintenance.

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JO - Nucleic acids research

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Nuclear F-Actin assembly on damaged chromatin is regulated by DYRK1A and Spir1 phosphorylation

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