A requirement for polymerized actin in DNA double-strand break repair

Christi Andrin; Darin McDonald; Kathleen M. Attwood; Amélie Rodrigue; Sunita Ghosh; Razmik Mirzayans; Jean Yves Masson; Graham Dellaire; Michael J. Hendzel

doi:10.4161/nucl.21055

A requirement for polymerized actin in DNA double-strand break repair

Christi Andrin, Darin McDonald, Kathleen M. Attwood, Amélie Rodrigue, Sunita Ghosh, Razmik Mirzayans, Jean Yves Masson, Graham Dellaire, Michael J. Hendzel

Résultat de recherche: Article › examen par les pairs

73 Citations (Scopus)

Résumé

Nuclear actin is involved in several nuclear processes from chromatin remodeling to transcription. Here we examined the requirement for actin polymerization in DNA double-strand break repair. Double-strand breaks are considered the most dangerous type of DNA lesion. Double-strand break repair consists of a complex set of events that are tightly regulated. Failure at any step can have catastrophic consequences such as genomic instability, oncogenesis or cell death. Many proteins involved in this repair process have been identified and their roles characterized. We discovered that some DNA double-strand break repair factors are capable of associating with polymeric actin in vitro and specifically, that purified Ku70/80 interacts with polymerized actin under these conditions. We find that the disruption of polymeric actin inhibits DNA double strand break repair both in vitro and in vivo. Introduction of nuclear targeted mutant actin that cannot polymerize, or the depolymerization of endogenous actin filaments by the addition of cytochalasin D, alters the retention of Ku80 at sites of DNA damage in live cells. Our results suggest that polymeric actin is required for proper DNA double-strand break repair and may function through the stabilization of the Ku heterodimer at the DNA damage site.

Langue d'origine	English
Pages (de-à)	384-395
Nombre de pages	12
Journal	Nucleus
Volume	3
Numéro de publication	4
DOI	https://doi.org/10.4161/nucl.21055
Statut de publication	Published - 2012

Note bibliographique

Funding Information:
from the National Cancer Institute of Canada to M.J.H. and a Discovery Grant from the Natural Science and Engineering Research Council (NSERC) to G.D. M.J.H. is a senior scholar of Alberta Innovates Health Solutions and G.D. is Canadian Institutes of Health Research (CIHR) New Investigator and Senior Scientist of the Beatrice Hunter Cancer Research Institute (BHCRI). K.M.A. was supported by the BHCRI with funds provided by The Terry Fox Foundation Strategic Health Research Training (STIHR) Program in Cancer Research at CIHR and is currently supported by a studentship award from NSERC.

ASJC Scopus Subject Areas

Cell Biology

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10.4161/nucl.21055

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abstract = "Nuclear actin is involved in several nuclear processes from chromatin remodeling to transcription. Here we examined the requirement for actin polymerization in DNA double-strand break repair. Double-strand breaks are considered the most dangerous type of DNA lesion. Double-strand break repair consists of a complex set of events that are tightly regulated. Failure at any step can have catastrophic consequences such as genomic instability, oncogenesis or cell death. Many proteins involved in this repair process have been identified and their roles characterized. We discovered that some DNA double-strand break repair factors are capable of associating with polymeric actin in vitro and specifically, that purified Ku70/80 interacts with polymerized actin under these conditions. We find that the disruption of polymeric actin inhibits DNA double strand break repair both in vitro and in vivo. Introduction of nuclear targeted mutant actin that cannot polymerize, or the depolymerization of endogenous actin filaments by the addition of cytochalasin D, alters the retention of Ku80 at sites of DNA damage in live cells. Our results suggest that polymeric actin is required for proper DNA double-strand break repair and may function through the stabilization of the Ku heterodimer at the DNA damage site.",

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N2 - Nuclear actin is involved in several nuclear processes from chromatin remodeling to transcription. Here we examined the requirement for actin polymerization in DNA double-strand break repair. Double-strand breaks are considered the most dangerous type of DNA lesion. Double-strand break repair consists of a complex set of events that are tightly regulated. Failure at any step can have catastrophic consequences such as genomic instability, oncogenesis or cell death. Many proteins involved in this repair process have been identified and their roles characterized. We discovered that some DNA double-strand break repair factors are capable of associating with polymeric actin in vitro and specifically, that purified Ku70/80 interacts with polymerized actin under these conditions. We find that the disruption of polymeric actin inhibits DNA double strand break repair both in vitro and in vivo. Introduction of nuclear targeted mutant actin that cannot polymerize, or the depolymerization of endogenous actin filaments by the addition of cytochalasin D, alters the retention of Ku80 at sites of DNA damage in live cells. Our results suggest that polymeric actin is required for proper DNA double-strand break repair and may function through the stabilization of the Ku heterodimer at the DNA damage site.

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A requirement for polymerized actin in DNA double-strand break repair

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