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Activation of the retinoblastoma tumor suppressor mediates cell cycle inhibition and cell death in specific cervical cancer cell lines

✍ Scribed by Ryan J. Bourgo; Wesley A. Braden; Susanne I. Wells; Erik S. Knudsen

Publisher: John Wiley and Sons
Year: 2009
Tongue: English
Weight: 419 KB
Volume: 48
Category: Article
ISSN: 0899-1987
DOI: 10.1002/mc.20456

No coin nor oath required. For personal study only.

✦ Synopsis

Abstract

High‐risk human papilloma virus (HPV) encodes two oncoproteins, E6 and E7, which are vital to viral replication and contribute to the development of cervical cancer. HPV16 E7 can target over 20 cellular proteins, but is best known for inactivating the retinoblastoma (RB) tumor suppressor. RB functions by restraining cells from entering S‐phase of the cell cycle, thus preventing aberrant proliferation. While it is well established that HPV16 E7 facilitates the degradation of the RB protein, the ability of the RB pathway to overcome E7 action is less well understood. In this study the RB‐pathway was activated via the overexpression of the p16ink4a tumor suppressor or ectopic expression of an active allele of RB (PSM‐RB). While p16ink4a had no influence on cell cycle progression, PSM‐RB expression was sufficient to induce a cell cycle arrest in both SiHa and HeLa cells, HPV positive cervical cancer cell lines. Strikingly, this arrest led to the downregulation of E2F target gene expression, which was antagonized via enhanced HPV‐E7 expression. Since downmodulation of E7 function is associated with chronic growth arrest and senescence, the effect of PSM‐RB on proliferation and survival was evaluated. Surprisingly, sustained PSM‐RB expression impeded the proliferation of SiHa cells, resulting in both cell cycle inhibition and cell death. From these studies we conclude that active RB expression can sensitize specific cervical cancer cells to cell cycle inhibition and cell death. Thus, targeted therapies involving activation of RB function may be effective in inducing cell death in cervical cancer. © 2008 Wiley‐Liss, Inc.

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