Retinoic acid and CRABP-II in regulation of post transcriptional gene silencing
Cleveland Clinic Lerner Com-Cwru, Cleveland OH
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): The vitamin A metabolite all-trans-retinoic acid (RA) displays potent anticarcinogenic activities and is used clinically for treatment of some cancers. I is well established that RA inhibits carcinoma cell growth by activating RAR, a member of the nuclear receptor family of ligand-activated transcription factors. Activation of RAR by RA is supported by cellular RA-binding protein II (CRABP-II), a small soluble protein which, by delivering RA from the cytosol to nuclear RAR, facilitates the ligation of the receptor and enhances its transcriptional activity. Previous studies established that CRABP-II functions as a tumor suppressor in various cancers including mammary and prostate cancers. Intriguingly, our recent observations showed that, in addition to its established role as a carrier for RA, CRABP-II is involved in regulation of post-transcriptional gene silencing. The data demonstrated that CRABP-II directly associates with HuR, the best characterized regulator of transcript stability in animals from drosophila to man, and that it markedly augments the ability of HuR to stabilize target mRNAs. The observations showed further that the CRABP-II?HuR complex dissociates in response to RA. These findings reveal a novel RA-controlled activity of CRABP-II. The proposed studies aim to investigate the molecular basis for the cooperation of CRABP-II with HuR in stabilizing mRNA, and to explore the involvement of this cooperation in mammary carcinoma biology. The results of these studies will provide important insights into a previously unsuspected non-genomic function of RA as well as into a novel mechanism for regulating transcript stability in cells. The studies will also investigate the possibility that suppression o mammary carcinoma growth by CRABP-II is mediated in part through the ability of the protein to regulate mRNA stability.
View original record on NIH RePORTER →