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Regulation of Liver by Nuclear Ca2+ Signaling

$1,466,987P01FY2012DKNIH

Yale University, New Haven CT

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): The liver manages a wide range of metabolic functions, which are controlled by interrelated signaling pathways. One such pathway involves cytosolic Ca2+ signaling in hepatocytes, which regulates activities such as transport and bile secretion, cytoskeletal organization, and apoptosis. The ongoing goal of this Program Project is to examine the mechanisms and effects of a complementary Ca2+ signaling system, within the nucleus of hepatocytes. During the current award it was found that growth factors act through a previously unrecognized Ca2+ signaling pathway in the nucleus of hepatocytes to regulate cell proliferation, that protein modification by 0-GlcNAcylation is a potential new control mechanism for the molecular regulation of the lnsP3 receptor/Ca2+ release channel, and that the nuclear-specific MAPK phosphatase MKP-1 is involved in the regulation of lipid metabolism and development of hepatic steatosis. During the next award period we will test the hypothesis that the balance between growth and metabolism in the liver is regulated by Ca2+ signals in the nucleus of hepatocytes. This will be tested through three projects. Project 1 will determine how receptor tyrosine kinases control Ca2+ signaling in the nucleus to regulate hepatocyte growth, and how fatty liver impairs these pathways. Project 2 will investigate the effects of fatty acids and glucose on 0-GlcNAcylation of the lnsP3 receptor in the nucleus and cytosol, and how this affects Ca2+ signaling in hepatocytes. Project 3 will test whether stress in the ER and nucleus impairs nuclear Ca2+ signaling and promotes hepatic steatosis by disrupting MKP-1-mediated regulation of MAPK targets that control hepatic lipogenesis. To help carry out these projects, core facilities will be established for cell and molecular biology, cell imaging, and administration. These projects will collectively provide a comprehensive investigation of how nuclear Ca2+ regulates the balance between growth and metabolism in the liver. The results of these studies will have broad clinical implications for the treatment of liver diseases in which regulation of hepatic growth is impaired, including cirrhosis and hepatocellular carcinoma, as well as metabolic syndromes such as non-alcoholic fatty liver disease (NAFLD).

View original record on NIH RePORTER →