Abstract
From late mitosis to the G(1) phase of the cell cycle, ORC, CDC6, and Cdt1 form the machinery necessary to load MCM2-7 complexes onto DNA. Here, we show that SNF2H, a member of the ATP-dependent chromatin-remodeling complex, is recruited onto DNA replication origins in human cells in a Cdt1-dependent manner and positively regulates MCM loading. SNF2H physically interacted with Cdt1. ChIP assays indicated that SNF2H associates with replication origins specifically during the G(1) phase. Binding of SNF2H at origins was decreased by Cdt1 silencing and, conversely, enhanced by Cdt1 overexpression. Furthermore, SNF2H silencing prevented MCM loading at origins and moderately inhibited S phase progression. Although neither SNF2H overexpression nor SNF2H silencing appeared to impact rereplication induced by Cdt1 overexpression, Cdt1-induced checkpoint activation was inhibited by SNF2H silencing. Collectively, these data suggest that SNF2H may promote MCM loading at DNA replication origins via interaction with Cdt1 in human cells. Because efficient loading of excess MCM complexes is thought to be required for cells to tolerate replication stress, Cdt1- and SNF2H-mediated promotion of MCM loading may be biologically relevant for the regulation of DNA replication.
Highlights
Cdt1 is a DNA replication factor that loads MCM helicase onto chromatin
The observed interaction between Cdt1 and SNF2H may be mediated by PCNAWSTF binding
The pattern of SNF2H binding was similar to that of licensing factors, a finding that is similar to previous results obtained with oriP of Epstein-Barr virus [37]. These results suggest that SNF2H is associated with cellular replication origins in the G1 phase in a cell cycle-dependent manner
Summary
Cdt is a DNA replication factor that loads MCM helicase onto chromatin. SNF2H is a chromatin remodeler. We show that SNF2H, a member of the ATP-dependent chromatin-remodeling complex, is recruited onto DNA replication origins in human cells in a Cdt1-dependent manner and positively regulates MCM loading. Neither SNF2H overexpression nor SNF2H silencing appeared to impact rereplication induced by Cdt overexpression, Cdt1-induced checkpoint activation was inhibited by SNF2H silencing These data suggest that SNF2H may promote MCM loading at DNA replication origins via interaction with Cdt in human cells. The situation may be the same for efficient MCM loading In this regard, HBO1 (a MYST family histone acetyltransferase that binds to ORC), originally identified through its physical interactions with human ORC1 [27], was recently found to associate with replication origins through interaction with Cdt and to enhance licensing and DNA replication through its acetylation activity (28 –30). On the basis of the data obtained, we propose that SNF2H promotes MCM loading at cellular replication origins through interaction with Cdt
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