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Transporter Expression in Response to Hepatotoxicants

$308,747R01FY2012DKNIH

University Of Connecticut Storrs, Storrs-Mansfield CT

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Abstract

ABSTRACT Although knowledge on acetaminophen (APAP) hepatotoxicity has advanced significantly during the last three decades, the precise mechanism of toxicity remains unknown. Even less is known about a phenomenon known as autoprotection, in which the liver adapts to sub-toxic APAP exposure, resulting in resistance to subsequent toxic APAP dosing. Our long-term goal is to understand the role of MRP (ABCC) transporters in APAP-induced hepatotoxicity. During the current funding cycle we determined that the efflux transporter Mrp4 is the most significantly induced MRP during APAP hepatotoxicity. Our data also show a strong relationship between liver Mrp4 induction and development of resistance to APAP toxicity. Therefore, the hypothesis for this competing renewal is that Mrp4 induction is a compensatory response to drug-induced liver injury that confers resistance to subsequent toxicant challenge. To test this hypothesis, three specific research aims have been formulated. First, we will analyze the role of Mrp4 in APAP hepatotoxicity by examining the susceptibility of Mrp4-/- mice to APAP. A complementary in vitro approach is to examine the susceptibility of stably transfected immortalized human hepatocytes overexpresing Mrp4 cells (hMRP4-HC04) to APAP cytotoxicity. Then, we will determine the functional consequences of Mrp4 induction using metabolomic approaches to identify endogenous molecules transported by MRP4 with paracrine functions promoting heightened cellular defenses and compensatory cell proliferation. Lastly, transcriptional regulation of MRP4 gene expression in response to oxidative stress will be examined using molecular biological approaches and bioinformatics. Characterization of the transcription activity of mouse and human Mrp4/MRP4 gene promoter and its proximal regions will be carried out. Additional investigations will determine the effects of two transcription factors (NFR1 and HES-1) in MRP4 gene expression. Altered liver MRP4 expression may be essential for cell survival during periods of recovery and regeneration from drug-induced liver injury. This adaptation may mediate more efficient hepatobiliary excretion of cytotoxic intermediates and/or enhance the export of endogenous substrates for paracrine signaling to adjacent hepatocytes and non-parenchymal cells to promote survival and tissue repair. An increased knowledge of MRP4 regulation is expected to lead to better treatments of specific liver disorders and reduce the risk of drug liver injury. !

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