Molecular Cell
Volume 30, Issue 1, 11 April 2008, Pages 61-72
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Article
Deletion of Histone Deacetylase 3 Reveals Critical Roles in S Phase Progression and DNA Damage Control

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Summary

Histone deacetylases (HDACs) are enzymes that modify key residues in histones to regulate chromatin architecture, and they play a vital role in cell survival, cell-cycle progression, and tumorigenesis. To understand the function of Hdac3, a critical component of the N-CoR/SMRT repression complex, a conditional allele of Hdac3 was engineered. Cre-recombinase-mediated inactivation of Hdac3 led to a delay in cell-cycle progression, cell-cycle-dependent DNA damage, and apoptosis in mouse embryonic fibroblasts (MEFs). While no overt defects in mitosis were observed in Hdac3−/− MEFs, including normal H3Ser10 phosphorylation, DNA damage was observed in Hdac3−/− interphase cells, which appears to be associated with defective DNA double-strand break repair. Moreover, we noted that Hdac3−/− MEFs were protected from DNA damage when quiescent, which may provide a mechanistic basis for the action of HDAC inhibitors on cycling tumor cells.

DNA
CELLCYCLE

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