TY - JOUR
T1 - p53-repressed miRNAs are involved with E2F in a feed-forward loop promoting proliferation
AU - Brosh, Ran
AU - Shalgi, Reut
AU - Liran, Atar
AU - Landan, Gilad
AU - Korotayev, Katya
AU - Nguyen, Giang Huong
AU - Enerly, Espen
AU - Johnsen, Hilde
AU - Buganim, Yosef
AU - Solomon, Hilla
AU - Goldstein, Ido
AU - Madar, Shalom
AU - Goldfinger, Naomi
AU - Børresen-Dale, Anne Lise
AU - Ginsberg, Doron
AU - Harris, Curtis C.
AU - Pilpel, Yitzhak
AU - Oren, Moshe
AU - Rotter, Varda
PY - 2008
Y1 - 2008
N2 - Normal cell growth is governed by a complicated biological system, featuring multiple levels of control, often deregulated in cancers. The role of microRNAs (miRNAs) in the control of gene expression is now increasingly appreciated, yet their involvement in controlling cell proliferation is still not well understood. Here we investigated the mammalian cell proliferation control network consisting of transcriptional regulators, E2F and p53, their targets and a family of 15 miRNAs. Indicative of their significance, expression of these miRNAs is downregulated in senescent cells and in breast cancers harboring wild-type p53. These miRNAs are repressed by p53 in an E2F1-mediated manner. Furthermore, we show that these miRNAs silence antiproliferative genes, which themselves are E2F1 targets. Thus, miRNAs and transcriptional regulators appear to cooperate in the framework of a multi-gene transcriptional and post-transcriptional feed-forward loop. Finally, we show that, similarly to p53 inactivation, overexpression of representative miRNAs promotes proliferation and delays senescence, manifesting the detrimental phenotypic consequence of perturbations in this circuit. Taken together, these findings position miRNAs as novel key players in the mammalian cellular proliferation network.
AB - Normal cell growth is governed by a complicated biological system, featuring multiple levels of control, often deregulated in cancers. The role of microRNAs (miRNAs) in the control of gene expression is now increasingly appreciated, yet their involvement in controlling cell proliferation is still not well understood. Here we investigated the mammalian cell proliferation control network consisting of transcriptional regulators, E2F and p53, their targets and a family of 15 miRNAs. Indicative of their significance, expression of these miRNAs is downregulated in senescent cells and in breast cancers harboring wild-type p53. These miRNAs are repressed by p53 in an E2F1-mediated manner. Furthermore, we show that these miRNAs silence antiproliferative genes, which themselves are E2F1 targets. Thus, miRNAs and transcriptional regulators appear to cooperate in the framework of a multi-gene transcriptional and post-transcriptional feed-forward loop. Finally, we show that, similarly to p53 inactivation, overexpression of representative miRNAs promotes proliferation and delays senescence, manifesting the detrimental phenotypic consequence of perturbations in this circuit. Taken together, these findings position miRNAs as novel key players in the mammalian cellular proliferation network.
KW - Breast cancer
KW - Microarray
KW - Senescence
KW - miR-106
KW - mir-155
UR - http://www.scopus.com/inward/record.url?scp=57049085506&partnerID=8YFLogxK
U2 - 10.1038/msb.2008.65
DO - 10.1038/msb.2008.65
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C2 - 19034270
AN - SCOPUS:57049085506
SN - 1744-4292
VL - 4
JO - Molecular Systems Biology
JF - Molecular Systems Biology
M1 - 229
ER -