RB Loss Promotes Aberrant Ploidy by Deregulating Levels and Activity of DNA Replication Factors

The retinoblastoma tumor suppressor (RB) is functionally inactivated in many human cancers. Classically, RB functions to repress E2F-mediated transcription and inhibit cell cycle progression. Consequently, RB ablation leads to loss of cell cycle control and aberrant expression of E2F target genes. E...

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Veröffentlicht in:The Journal of biological chemistry 2007-08, Vol.282 (33), p.23867-23877
Hauptverfasser: Srinivasan, Seetha V., Mayhew, Christopher N., Schwemberger, Sandy, Zagorski, William, Knudsen, Erik S.
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container_end_page 23877
container_issue 33
container_start_page 23867
container_title The Journal of biological chemistry
container_volume 282
creator Srinivasan, Seetha V.
Mayhew, Christopher N.
Schwemberger, Sandy
Zagorski, William
Knudsen, Erik S.
description The retinoblastoma tumor suppressor (RB) is functionally inactivated in many human cancers. Classically, RB functions to repress E2F-mediated transcription and inhibit cell cycle progression. Consequently, RB ablation leads to loss of cell cycle control and aberrant expression of E2F target genes. Emerging evidence indicates a role for RB in maintenance of genomic stability. Here, mouse adult fibroblasts were utilized to demonstrate that aberrant DNA content in RB-deficient cells occurs concomitantly with an increase in levels and chromatin association of DNA replication factors. Furthermore, following exposure to nocodazole, RB-proficient cells arrest with 4 n DNA content, whereas RB-deficient cells bypass the mitotic block, continue DNA synthesis, and accumulate cells with higher ploidy and micronuclei. Under this condition, RB-deficient cells also retain high levels of tethered replication factors, MCM7 and PCNA, indicating that DNA replication occurs in these cells under nonpermissive conditions. Exogenous expression of replication factors Cdc6 or Cdt1 in RB-proficient cells does not recapitulate the RB-deficient cell phenotype. However, ectopic E2F expression in RB-proficient cells elevated ploidy and bypassed the response to nocodazole-induced cessation of DNA replication in a manner analogous to RB loss. Collectively, these results demonstrate that deregulated S phase control is a key mechanism by which RB-deficient cells acquire elevated ploidy.
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Classically, RB functions to repress E2F-mediated transcription and inhibit cell cycle progression. Consequently, RB ablation leads to loss of cell cycle control and aberrant expression of E2F target genes. Emerging evidence indicates a role for RB in maintenance of genomic stability. Here, mouse adult fibroblasts were utilized to demonstrate that aberrant DNA content in RB-deficient cells occurs concomitantly with an increase in levels and chromatin association of DNA replication factors. Furthermore, following exposure to nocodazole, RB-proficient cells arrest with 4 n DNA content, whereas RB-deficient cells bypass the mitotic block, continue DNA synthesis, and accumulate cells with higher ploidy and micronuclei. Under this condition, RB-deficient cells also retain high levels of tethered replication factors, MCM7 and PCNA, indicating that DNA replication occurs in these cells under nonpermissive conditions. Exogenous expression of replication factors Cdc6 or Cdt1 in RB-proficient cells does not recapitulate the RB-deficient cell phenotype. However, ectopic E2F expression in RB-proficient cells elevated ploidy and bypassed the response to nocodazole-induced cessation of DNA replication in a manner analogous to RB loss. 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subjects Animals
Cell Cycle Proteins - genetics
Cells, Cultured
Chromatin - metabolism
DNA Replication
DNA-Binding Proteins - genetics
E2F Transcription Factors - genetics
Fibroblasts - cytology
Gene Expression Regulation
Mice
Minichromosome Maintenance Complex Component 7
Nuclear Proteins - genetics
Ploidies
Proliferating Cell Nuclear Antigen - genetics
Retinoblastoma Protein - deficiency
S Phase
title RB Loss Promotes Aberrant Ploidy by Deregulating Levels and Activity of DNA Replication Factors
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