Heat-induced SIRT1-mediated H4K16ac Deacetylation Impairs Resection and SMARCAD1 Recruitment to Double Strand Breaks

Overview

Journal iScience

Publisher Cell Press

Date 2022 Apr 18

PMID 35434547

Authors

Sharmistha Chakraborty

Mayank Singh

Raj K Pandita

Vipin Singh

Calvin S C Lo

Fransisca Leonard

Nobuo Horikoshi

Eduardo G Moros

Deblina Guha

Clayton R Hunt

Eric Chau

Kazi M Ahmed

Prayas Sethi

Vijaya Charaka

Biana Godin

Kalpana Makhijani

Harry Scherthan

Jeanette Deck

Michael Hausmann

Arjamand Mushtaq

Mohammad Altaf

Kenneth S Ramos

Krishna M Bhat

Nitika Taneja

Chandrima Das

Tej K Pandita

Affiliations

Soon will be listed here.

Abstract

Hyperthermia inhibits DNA double-strand break (DSB) repair that utilizes homologous recombination (HR) pathway by a poorly defined mechanism(s); however, the mechanisms for this inhibition remain unclear. Here we report that hyperthermia decreases H4K16 acetylation (H4K16ac), an epigenetic modification essential for genome stability and transcription. Heat-induced reduction in H4K16ac was detected in humans, , and yeast, indicating that this is a highly conserved response. The examination of histone deacetylase recruitment to chromatin after heat-shock identified SIRT1 as the major deacetylase subsequently enriched at gene-rich regions. Heat-induced SIRT1 recruitment was antagonized by chromatin remodeler SMARCAD1 depletion and, like hyperthermia, the depletion of the SMARCAD1 or combination of the two impaired DNA end resection and increased replication stress. Altered repair protein recruitment was associated with heat-shock-induced γ-H2AX chromatin changes and DSB repair processing. These results support a novel mechanism whereby hyperthermia impacts chromatin organization owing to H4K16ac deacetylation, negatively affecting the HR-dependent DSB repair.

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