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Control of the replicative life span of human fibroblasts by p16 and the polycomb protein Bmi-1.

Koji Itahana ,
Ying Zou ,
Yoko Itahana ,
Jose-Luis Martinez ,
Christian Beausejour ,
Jacqueline J L Jacobs ,
Maarten Van Lohuizen ,
Vimla Band ,
Judith Campisi ,
Goberdhan P Dimri

Abstract

The polycomb protein Bmi-1 represses the INK4a locus, which encodes the tumor suppressors p16 and p14(ARF). Here we report that Bmi-1 is downregulated when WI-38 human fibroblasts undergo replicative senescence, but not quiescence, and extends replicative life span when overexpressed. Life span extension by Bmi-1 required the pRb, but not p53, tumor suppressor protein. Deletion analysis showed that the RING finger and helix-turn-helix domains of Bmi-1 were required for life span extension and suppression of p16. Furthermore, a RING finger deletion mutant exhibited dominant negative activity, inducing p16 and premature senescence. Interestingly, presenescent cultures of some, but not all, human fibroblasts contained growth-arrested cells expressing high levels of p16 and apparently arrested by a p53- and telomere-independent mechanism. Bmi-1 selectively extended the life span of these cultures. Low O(2) concentrations had no effect on p16 levels or life span extension by Bmi-1 but reduced expression of the p53 target, p21. We propose that some human fibroblast strains are more sensitive to stress-induced senescence and have both p16-dependent and p53/telomere-dependent pathways of senescence. Our data suggest that Bmi-1 extends the replicative life span of human fibroblasts by suppressing the p16-dependent senescence pathway.

More about this publication

Molecular and cellular biology

Volume 23
Issue nr. 1
Pages 389-401
Publication date 01-01-2003

Full text links

Publisher website (DOI) 10.1128/MCB.23.1.389-401.2003
Europe PubMed Central 12482990
Pubmed 12482990

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