Jjl. Jacobs et al., The oncogene and Polycomb-group gene bmi-1 regulates cell proliferation and senescence through the ink4a locus, NATURE, 397(6715), 1999, pp. 164-168
The bmi-1 gene was first isolated as an oncogene that cooperates with c-myc
in the generation of mouse lymphomas(1,2). We subsequently identified Bmi-
1 as a transcriptional repressor belonging to the mouse Polycomb group(3-6)
. The Polycomb group comprises an important, conserved set of proteins that
are required to maintain stable repression of specific target genes, such
as homeobox-cluster genes, during development(7-9). In mice, the absence of
bmi-1 expression results in neurological defects and severe proliferative
defects in lymphoid cells, whereas bmi-1 overexpression induces lymphomas(4
,10). Here we show that bmi-1-deficient primary mouse embryonic fibroblasts
are impaired in progression into the S phase of the cell cycle and undergo
premature senescence. In these fibroblasts and in bmi-1-deficient: lymphoc
ytes, the expression of the tumour suppressors p16 and p19(Arf), which are
encoded by ink4a, is raised markedly. Conversely, overexpression of bmi-1 a
llows fibroblast immortalization, downregulates expression of p16 and p19(A
rf) and, in combination with H-ras, leads to neoplastic transformation. Rem
oval of ink4a dramatically reduces the lymphoid and neurological defects se
en in bmi-1-deficient mice, indicating that ink4a is a critical in vivo tar
get for Bmi-1. Our results connect transcriptional repression by Polycomb-g
roup proteins with cell-cycle control and senescence.