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RB reversibly inhibits DNA replication via two temporally distinct mechanisms.

Authors :
Angus SP
Mayhew CN
Solomon DA
Braden WA
Markey MP
Okuno Y
Cardoso MC
Gilbert DM
Knudsen ES
Source :
Molecular and cellular biology [Mol Cell Biol] 2004 Jun; Vol. 24 (12), pp. 5404-20.
Publication Year :
2004

Abstract

The retinoblastoma (RB) tumor suppressor is a critical negative regulator of cellular proliferation. Repression of E2F-dependent transcription has been implicated as the mechanism through which RB inhibits cell cycle progression. However, recent data have suggested that the direct interaction of RB with replication factors or sites of DNA synthesis may contribute to its ability to inhibit S phase. Here we show that RB does not exert a cis-acting effect on DNA replication. Furthermore, the localization of RB was distinct from replication foci in proliferating cells. While RB activation strongly attenuated the RNA levels of multiple replication factors, their protein expression was not diminished coincident with cell cycle arrest. During the first 24 h of RB activation, components of the prereplication complex, initiation factors, and the clamp loader complex (replication factor C) remained tethered to chromatin. In contrast, the association of PCNA and downstream components of the processive replication machinery was specifically disrupted. This signaling from RB occurred in a manner dependent on E2F-mediated transcriptional repression. Following long-term activation of RB, we observed the attenuation of multiple replication factors, the complete cessation of DNA synthesis, and impaired replicative capacity in vitro. Therefore, functional distinctions exist between the "chronic" RB-mediated arrest state and the "acute" arrest state. Strikingly, attenuation of RB activity reversed both acute and chronic replication blocks. Thus, continued RB action is required for the maintenance of two kinetically and functionally distinct modes of replication inhibition.

Details

Language :
English
ISSN :
0270-7306
Volume :
24
Issue :
12
Database :
MEDLINE
Journal :
Molecular and cellular biology
Publication Type :
Academic Journal
Accession number :
15169903
Full Text :
https://doi.org/10.1128/MCB.24.12.5404-5420.2004