Grants and Contracts Details
Description
Premature cell senescence induced by oncogenes and oxidative stress in vitro recapitulates
many facets of replicative senescence and in vivo cellular aging. With the recent findings of a
tumor suppressor role for senescent cells in vivo, the establishment of cell senescence emerges
as a survival adaptation to stress aimed at limiting the proliferation of stressed and damaged
cells. However, the factors and molecular mechanisms by which cell senescence is established
and maintained remain poorly understood. Lithium is commonly used to treat bipolar disorder as
well as to activate the oncogenic â-catenin signaling pathway via inhibition of glycogen synthase
kinase (GSK)-3â. We have previously shown that lithium induces a cell cycle arrest in primary
endothelial cells associated with the activation of the tumor suppressor p53 and p21cip cascade
and the development of a cell senescent phenotype characterized by the SA- â-galactosidase
marker. The lithium-induced senescent phenotype was also accompanied with the activation of
the tumor suppressor FOXO1, which is involved in the control of lifespan and cell senescence
and by the up-regulation of plasminogen activator inhibitor (PAI)-1 and matrix metalloproteinase
(MMP)-1, two secreted markers of cell senescence and age-related diseases. MMP-1, in addition
to degrade collagen, can signals via cleavage and activation of the proteinase-activated-receptor
(PAR)-1. Activation of PAR1 in endothelial cells triggers a pro-inflammatory state, which is also a
hallmark of a senescent state. Moreover, MMP1 up-regulation by lithium is an early event that
appears independent of inflammatory cytokines, GSK3â inhibition and â-catenin stabilization
indicative of a novel lithium-dependent cascade. We propose to test the hypothesis that a novel
lithium-dependent cascade induces MMP-1 expression, which in turn participates in the
establishment and/or maintenance of cell senescence via activation of PAR-1. In Aim 1, we will
determine the role of MMP-1 in the establishment of lithium-induced cell senescent phenotype
and its mechanism of action by i) monitoring the expression of senescence markers in presence
of MMP-1 and in absence of MMP1 activity and expression using specific inhibitors and small
RNA interference respectively, and ii) by analyzing the activation of PAR-1 in response to lithium
and its dependency on MMP-1 expression and activity. In Aim 2, we will identify the mechanisms
of lithium-mediated up-regulation of MMP-1 in endothelial cells by i) delineating the lithiumresponsive
element in MMP-1 promoter, ii) identifying the transcription factors regulated by
lithium and iii) analyzing the signaling cascade involved using specific inhibitors and activators as
well as by knock in down their expression by small RNA interference.
Status | Finished |
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Effective start/end date | 9/30/09 → 11/14/11 |
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