We have isolated a novel liver-specific organic anion transporter, LST-1, that is expressed exclusively in the human, rat, and mouse liver. LST-1 is a new gene family located between the organic anion transporter family and prostaglandin transporter. LST-1 transports taurocholate (K m ؍ 13.6 M) in a sodium-independent manner. LST-1 also shows broad substrate specificity. It transports conjugated steroids (dehydroepiandrosterone sulfate, estradiol-17-glucuronide, and estrone-3-sulfate), eicosanoids (prostaglandin E 2 , thromboxane B 2 , leukotriene C 4 , leukotriene E 4 ), and thyroid hormones (thyroxine, K m ؍ 3.0 M and triiodothyronine, K m ؍ 2.7 M), reflecting hepatic multispecificity.LST-1 is probably the most important transporter in human liver for clearance of bile acids and organic anions because hepatic levels of another organic anion transporter, OATP, is very low. This is also the first report of the human molecule that transports thyroid hormones.One of the major function of the liver is the removal of various endogenous and exogenous compounds from the circulation (1, 2). This clearance process involves basolateral membrane transport systems that mediate the hepatocellular uptake of bile acids, organic anions, and organic cations (3, 4). One well studied class of substrates are the bile acids. The uptake of taurocholate is mainly mediated by the Na ϩ /taurocholate cotransporting polypeptide (ntcp) in a Na ϩ -dependent manner (5). The uptake of other bile acids (e.g. cholate) occurs predominantly via a Na ϩ -independent mechanism (2, 4). Some amount of taurocholate is also transported by the Na ϩ -independent mechanism. This Na ϩ -independent carrier system further shows a broad substrate specificity transporting conjugated steroids, cardiac glycosides, and other xenobiotics (4).Initially, the organic anion transporter (oatp) 1 family (oatp1, oatp2, oatp3) was considered to represent the Na ϩ -independent transporting mechanisms in the liver (6 -8). Subsequently, a human cDNA, termed OATP, was isolated (9). However, significant differences were found between human OATP and rat oatp family. First, although the substrate specificities were qualitatively similar, significant differences were found between human OATP-and rat oatp family-mediated initial uptake rates and apparent K m values (10, 11). Second, Northern blot analysis of the human OATP showed considerably high expression in the brain, a pattern that is different from any of the oatp family members. These findings strongly suggest the existence of a different group of organic anion transporters in human liver.Here we report the isolation of a novel human organic anion transporter, termed LST-1, which is expressed exclusively in the liver. When expressed in Xenopus oocytes, many of the functional characteristics of LST-1 were identical to the multispecific transporting mechanisms of human liver. These results suggest that LST-1 is the predominant clearance mechanism of several endogenous and exogenous substrates in human liver.
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