The provisional criteria and algorithm appear to be useful for clarifying the entity of IgG4-RKD and seeking underlying IgG4-RKD cases; however, further experience is needed to confirm the validity of these criteria.
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. MATERIALS ...
Two complementary DNAs for the organic anion transporter subtypes oatp2 and oatp3, which transport thyroid hormones as well as taurocholate, were isolated from a rat retina cDNA library. The sequence of oatp2 is identical to that recently reported (Noé , B., Hagenbuch, B., Stieger, B., and Meier, P. J. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 10346 -10350), whereas the sequence of oatp3 is novel. oatp3 consists of 670 amino acid residues and exhibits a structural architecture common to the organic anion transporter family, possessing the 12 putative membrane-spanning segments. Oocytes injected with oatp2 and oatp3 cRNAs showed taurocholate uptake in a saturable manner. The oatp2 and oatp3 cRNAinjected oocytes also showed significant uptake of both thyroxine and triiodothyronine. Northern blot and in situ analyses showed that the oatp2 mRNA was widely expressed in neuronal cells of the central nervous system, especially in the hippocampus, cerebellum, and choroid plexus as well as in the retina and liver. The oatp3 mRNA was highly expressed in the kidney and moderately abundant in the retina. This suggests that oatp2 and oatp3 are multifunctional transporters involved in the transport of thyroid hormones in the brain, retina, liver, and kidney.A homeostatic system controls the fluid environment in the brain and keeps its chemical composition relatively constant compared with that of plasma. One mechanism is the bloodbrain barrier, which selectively transports chemical substances via capillary endothelial cells (1). A second essential component is the choroid plexus (blood-cerebrospinal fluid barrier), which secretes or takes up specific chemical substances (2). Although the presence of specific transporting mechanisms has long been postulated, little is known about their molecular identity. Recent molecular biological studies revealed the organic anion transporter family: the Na ϩ -independent organic anion-transporting polypeptide oatp1 from rat liver, which transports bile acid, bromosulfophthalein (BSP), 1 and conjugated and unconjugated steroid hormones (3, 4); the kidney-specific transporter OAT-K1, which transports methotrexate in the basolateral membrane of renal tubules (5); and the prostaglandin transporter (6). Moreover, physiological studies have suggested the presence of other members of the organic anion transporter family (7). Noé et al. (8) have recently reported that a new organic anion transporter subtype (oatp2) is present in rat brain and liver and that the oatp2-expressed oocytes transported cardiac glycoside as well as taurocholate. However, the endogenous substrate of oatp2 and the regional distribution in the brain have not been revealed.It has been suggested that thyroid hormones are transported into the brain via the blood-brain barrier (9) or via the choroid plexus (10). To reveal this mechanism, we focused on the retina. In the retina, the retinal pigment epithelium is the unique source of transthyretin synthesis, and it serves to transport thyroxine (T4) across the blood-retina barr...
Polycystic kidney diseases are genetic disorders in which the renal parenchyma is progressively replaced by fluid-filled cysts. Two members of the polycystin family (polycystin-1 and -2) are mutated in autosomal dominant polycystic kidney disease (ADPKD), and polycystin-L is deleted in mice with renal and retinal defects. Polycystins are membrane proteins that share significant sequence homology, especially polycystin-2 and -L (50% identity and 71% similarity). The functions of the polycystins remain unknown. Here we show that polycystin-L is a calcium-modulated nonselective cation channel that is permeable to sodium, potassium and calcium ions. Patch-clamp experiments revealed single-channel activity with a unitary conductance of 137 pS. Channel activity was substantially increased when either the extracellular or intracellular calcium-ion concentration was raised, indicating that polycystin-L may act as a transducer of calcium-mediated signalling in vivo. Its large single-channel conductance and regulation by calcium ions distinguish it from other structurally related cation channels.
Bacterial vectors may offer many advantages over other antigen delivery systems for cancer vaccines. We engineered a Salmonella typhimurium vaccine strain to deliver the NY-ESO-1 tumor antigen (S. typhimurium-NY-ESO-1) through a type III protein secretion system. The S. typhimurium-NY-ESO-1 construct elicited NY-ESO-1-specific CD8+ and CD4+ T cells from peripheral blood lymphocytes of cancer patients in vitro. Oral administration of S. typhimurium-NY-ESO-1 to mice resulted in the regression of established NY-ESO-1-expressing tumors. Intratumoral inoculation of S. typhimurium-NY-ESO-1 to NY-ESO-1-negative tumors resulted in delivery of antigen in vivo and led to tumor regression in the presence of preexisting NY-ESO-1-specific CD8+ T cells. Specific T cell responses against at least 2 unrelated tumor antigens not contained in the vaccine were observed, demonstrating epitope spreading. We propose that antigen delivery through the S. typhimurium type III secretion system is a promising novel strategy for cancer vaccine development.
This study showed a significant association between IOP and obesity in both cross-sectional and longitudinal analysis. These findings suggest that obesity is an independent risk factor for increase in IOP.
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