SMARCAD1 Phosphorylation and Ubiquitination Are Required for Resection during DNA Double-Strand Break Repair

Sharmistha Chakraborty; Raj K. Pandita; Shashank Hambarde; Abid R. Mattoo; Vijaya Charaka; Kazi M. Ahmed; Swaminathan P. Iyer; Clayton R. Hunt; Tej K. Pandita

doi:10.1016/j.isci.2018.03.016

SMARCAD1 Phosphorylation and Ubiquitination Are Required for Resection during DNA Double-Strand Break Repair

Sharmistha Chakraborty, Raj K. Pandita, Shashank Hambarde, Abid R. Mattoo, Vijaya Charaka, Kazi M. Ahmed, Swaminathan P. Iyer, Clayton R. Hunt, Tej K. Pandita

Lymphoma-Myeloma

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

The chromatin remodeling factor SMARCAD1, an SWI/SNF ATPase family member, has a role in 5′ end resection at DNA double-strand breaks (DSBs) to produce single-strand DNA (ssDNA), a critical step for subsequent checkpoint and repair factor loading to remove DNA damage. However, the mechanistic details of SMARCAD1 coupling to the DNA damage response and repair pathways remains unknown. Here we report that SMARCAD1 is recruited to DNA DSBs through an ATM-dependent process. Depletion of SMARCAD1 reduces ionizing radiation (IR)-induced repairosome foci formation and DSB repair by homologous recombination (HR). IR induces SMARCAD1 phosphorylation at a conserved T906 by ATM kinase, a modification essential for SMARCAD1 recruitment to DSBs. Interestingly, T906 phosphorylation is also important for SMARCAD1 ubiquitination by RING1 at K905. Both these post-translational modifications are critical for regulating the role of SMARCAD1 in DNA end resection, HR-mediated repair, and cell survival after DNA damage.

Original language	English (US)
Pages (from-to)	123-135
Number of pages	13
Journal	iScience
Volume	2
DOIs	https://doi.org/10.1016/j.isci.2018.03.016
State	Published - Apr 27 2018

Keywords

Bioengineering
In Vitro Toxicology Including 3D Culture
Tissue Engineering

ASJC Scopus subject areas

General

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10.1016/j.isci.2018.03.016

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title = "SMARCAD1 Phosphorylation and Ubiquitination Are Required for Resection during DNA Double-Strand Break Repair",

abstract = "The chromatin remodeling factor SMARCAD1, an SWI/SNF ATPase family member, has a role in 5′ end resection at DNA double-strand breaks (DSBs) to produce single-strand DNA (ssDNA), a critical step for subsequent checkpoint and repair factor loading to remove DNA damage. However, the mechanistic details of SMARCAD1 coupling to the DNA damage response and repair pathways remains unknown. Here we report that SMARCAD1 is recruited to DNA DSBs through an ATM-dependent process. Depletion of SMARCAD1 reduces ionizing radiation (IR)-induced repairosome foci formation and DSB repair by homologous recombination (HR). IR induces SMARCAD1 phosphorylation at a conserved T906 by ATM kinase, a modification essential for SMARCAD1 recruitment to DSBs. Interestingly, T906 phosphorylation is also important for SMARCAD1 ubiquitination by RING1 at K905. Both these post-translational modifications are critical for regulating the role of SMARCAD1 in DNA end resection, HR-mediated repair, and cell survival after DNA damage.",

keywords = "Bioengineering, In Vitro Toxicology Including 3D Culture, Tissue Engineering",

author = "Sharmistha Chakraborty and Pandita, {Raj K.} and Shashank Hambarde and Mattoo, {Abid R.} and Vijaya Charaka and Ahmed, {Kazi M.} and Iyer, {Swaminathan P.} and Hunt, {Clayton R.} and Pandita, {Tej K.}",

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doi = "10.1016/j.isci.2018.03.016",

language = "English (US)",

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AU - Chakraborty, Sharmistha

AU - Pandita, Raj K.

AU - Hambarde, Shashank

AU - Mattoo, Abid R.

AU - Charaka, Vijaya

AU - Ahmed, Kazi M.

AU - Iyer, Swaminathan P.

AU - Hunt, Clayton R.

AU - Pandita, Tej K.

PY - 2018/4/27

Y1 - 2018/4/27

N2 - The chromatin remodeling factor SMARCAD1, an SWI/SNF ATPase family member, has a role in 5′ end resection at DNA double-strand breaks (DSBs) to produce single-strand DNA (ssDNA), a critical step for subsequent checkpoint and repair factor loading to remove DNA damage. However, the mechanistic details of SMARCAD1 coupling to the DNA damage response and repair pathways remains unknown. Here we report that SMARCAD1 is recruited to DNA DSBs through an ATM-dependent process. Depletion of SMARCAD1 reduces ionizing radiation (IR)-induced repairosome foci formation and DSB repair by homologous recombination (HR). IR induces SMARCAD1 phosphorylation at a conserved T906 by ATM kinase, a modification essential for SMARCAD1 recruitment to DSBs. Interestingly, T906 phosphorylation is also important for SMARCAD1 ubiquitination by RING1 at K905. Both these post-translational modifications are critical for regulating the role of SMARCAD1 in DNA end resection, HR-mediated repair, and cell survival after DNA damage.

AB - The chromatin remodeling factor SMARCAD1, an SWI/SNF ATPase family member, has a role in 5′ end resection at DNA double-strand breaks (DSBs) to produce single-strand DNA (ssDNA), a critical step for subsequent checkpoint and repair factor loading to remove DNA damage. However, the mechanistic details of SMARCAD1 coupling to the DNA damage response and repair pathways remains unknown. Here we report that SMARCAD1 is recruited to DNA DSBs through an ATM-dependent process. Depletion of SMARCAD1 reduces ionizing radiation (IR)-induced repairosome foci formation and DSB repair by homologous recombination (HR). IR induces SMARCAD1 phosphorylation at a conserved T906 by ATM kinase, a modification essential for SMARCAD1 recruitment to DSBs. Interestingly, T906 phosphorylation is also important for SMARCAD1 ubiquitination by RING1 at K905. Both these post-translational modifications are critical for regulating the role of SMARCAD1 in DNA end resection, HR-mediated repair, and cell survival after DNA damage.

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SMARCAD1 Phosphorylation and Ubiquitination Are Required for Resection during DNA Double-Strand Break Repair

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