Notch3 functions as a tumor suppressor by controlling cellular senescence

H Cui, Y Kong, M Xu, H Zhang - Cancer research, 2013 - AACR
H Cui, Y Kong, M Xu, H Zhang
Cancer research, 2013AACR
Notch signaling regulates a broad spectrum of cell fate decisions and differentiation. Both
oncogenic and tumor suppressor functions have been shown for Notch signaling. However,
little is known about the underlying mechanisms of its tumor suppressor function. Here, we
report that expression of Notch3, a member of Notch family transmembrane receptors, was
elevated in human cells during senescence activated by various senescence-inducing
stimuli. This upregulation of Notch3 was required for the induction of p21 expression in …
Abstract
Notch signaling regulates a broad spectrum of cell fate decisions and differentiation. Both oncogenic and tumor suppressor functions have been shown for Notch signaling. However, little is known about the underlying mechanisms of its tumor suppressor function. Here, we report that expression of Notch3, a member of Notch family transmembrane receptors, was elevated in human cells during senescence activated by various senescence-inducing stimuli. This upregulation of Notch3 was required for the induction of p21 expression in senescent cells. Downregulation of Notch3 led to a delayed onset of senescence and extended replicative lifespan, whereas adventitious expression of Notch3 was sufficient to activate senescence and p21 expression. The ability of Notch3 to induce senescence and p21 expression was dependent on the canonical Notch singling. Deletion of p21 in cells significantly attenuated Notch3-induced senescence. Furthermore, a significant decrease in Notch3 expression was observed in human tumor cell lines as well as primary human breast cancer and melanoma samples compared with normal tissues. Restoration of Notch3 expression in human tumor cells resulted in inhibition of cell proliferation and activation of senescence. Collectively, our results reveal a novel function of Notch3 in senescence regulation and tumor suppression. Cancer Res; 73(11); 3451–9. ©2013 AACR.
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