Abstract

In normal cells, induction of quiescence is accompanied by the increased expression of growth arrest-specific genes (gas). One of them, gas1, is regulated at the transcriptional level and codes for a membrane-associated protein (Gas1) which is down regulated during the G0-to-S phase transition in serum-stimulated cells. Gas1 is not expressed in growing or transformed cells, and when overexpressed in normal fibroblasts, it blocks the G0-to-S phase transition. Moreover, Gas1 blocks cell proliferation in several transformed cells with the exception of simian virus 40- or adenovirus-transformed cell lines. In this paper, we demonstrate that overexpression of Gas1 blocks cell proliferation in a p53-dependent manner and that the N-terminal domain-dependent transactivating function of p53 is dispensable for Gas1-induced growth arrest. These data therefore indicate that the other intrinsic transactivation-independent functions of p53, possibly related to regulation of apoptosis, should be involved in mediating Gas1-induced growth arrest.

Keywords

TransactivationBiologyCell growthCell biologyCell cycleCell cycle checkpointApoptosisCell cultureMolecular biologyGeneTranscription factorGenetics

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Year
1995
Type
article
Volume
15
Issue
12
Pages
7152-7160
Citations
96
Access
Closed

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Giannino Del Sal, Elisabetta Ruaro, René Utrera et al. (1995). Gas1-Induced Growth Suppression Requires a Transactivation-Independent p53 Function. Molecular and Cellular Biology , 15 (12) , 7152-7160. https://doi.org/10.1128/mcb.15.12.7152

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DOI
10.1128/mcb.15.12.7152