Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bumetanide is a weak organic acid which is transported into hepatocytes by a transport system that is related neither to the cloned sodium-dependent taurocholate cotransporting polypeptide Ntcp nor to the cloned organic anion transporting polypeptide oatp. Bumetanide is known to be transported in the kidney by a multispecific organic anion transporter which is the pAH-transporter from the proximal tubule cell. In the liver, bumetanide uptake competes with bile acid uptake, indicating a functionally related multispecific transporter for bile acids and drugs in hepatocytes. This multispecific bile acid transporter MBAT has not been cloned yet. When basolateral membranes were photoaffinity labeled with [3H]bumetanide, several bumetanide binding proteins were separated and identified after protein sequencing from two-dimensional electrophoresis gels.
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PMID:What we have learned about bumetanide and the concept of multispecific bile acid/drug transporters from the liver. 892 68

Impairment of the hepatic transport of bile acids and other organic anions will result in the clinically important syndrome of cholestasis. Cloning of a number of specific hepatic organic anion transporters has enabled studies of their molecular regulation during cholestasis. The best characterized transport system is a 50-51 kDa sodium-dependent taurocholate cotransporting polypeptide (ntcp), which mediates the sodium-dependent uptake of conjugated bile acids at the sinusoidal plasma membrane of hepatocytes. Under physiologic conditions and after depletion of biliary constituents, ntcp remains constitutively expressed throughout the liver acinus. However, both function and expression of ntcp are rapidly down-regulated in rat liver in various models of experimental cholestasis, such as cholestasis induced by common bile duct ligation, estrogen, endotoxin or cytokine treatment. In addition to ntcp, the sinusoidal organic anion transporting polypeptide oatp-1 is also down-regulated at the protein and steady-state mRNA levels in estrogen-cholestasis, but does not affect sodium-independent uptake of taurocholate. The regulation of a recently cloned member of the organic anion transporter family (oatp-2), which is highly expressed in liver, remains to be studied under cholestatic conditions.
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PMID:Molecular regulation of sinusoidal liver bile acid transporters during cholestasis. 962 56

Many organic compounds are taken up from the blood by membrane transporters, taken across the sinosuidal membrane of hepatocytes and then excreted into bile via the bile canalicular membrane. The hepatic uptake of conjugated bile acids is mediated by the sodium taurocholate cotransporting polypeptide. Many organic anions and bulky organic cations are incorporated into hepatocytes by the organic anion transporting polypeptide, while small organic cations are transported by the organic cation transporter. At the canalicular membrane, organic compounds are excreted into bile by ATP-binding cassette transporters which hydrolyse ATP to ADP. Excretion of monovalent bile acids is mediated by the canalicular bile salt transporter and that of organic anions, including divalent bile acid, conjugates, are mediated by the multi-drug resistance-associated protein 2, also termed canalicular multi-specific organic anion transporter. Organic cations are excreted into bile by the multi-drug resistance gene product (MDR) 1 and phospholipids are excreted by MDR3 (mdr2 in mice and rats). The clinical syndromes associated with alterations of these transporters are also discussed.
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PMID:Molecular aspects of organic compound transport across the plasma membrane of hepatocytes. 1035 2

Mechanistic studies regarding the action of gadobenate dimeglumine (Gd-BOPTA/Dimeg; MultiHance) in animals are presented, and the relevance of the results to protocols for MR imaging of the liver are discussed. Gd-BOPTA/Dimeg maintains all the characteristics of an extracellular contrast agent, but owing to a weak affinity for serum albumin, provides in these applications stronger signal intensities than contrast agents without such affinity at the same dose. This property can be taken advantage of for dynamic liver imaging. A unique property of Gd-BOPTA/Dimeg is that the contrast effective ion, Gd-BOPTA2-, enters hepatocytes selectively and reversibly through the sinusoidal plasma membrane using transport mechanisms other than the organic anion transport polypeptide. In a rate-limiting step, the ion is excreted by the multispecific organic anion transporter into the bile. The increase in liver distribution space of Gd-BOPTA2-, as compared to that of purely extracellular contrast agents, is identified as the principal mechanism of normal parenchymal signal enhancement. Microviscosity effects inside hepatocytes add to the relaxation effectiveness of Gd-BOPTA2-, while its presence in the bile and an affinity for intracellular macromolecules play subordinate roles only. Gd-BOPTA2- persists in hepatocytes beyond the times characteristic of dynamic imaging, providing delayed-phase contrast between normal hepatocytes and tumor cells. As a result, the conspicuity of small focal lesions and thus their detection is improved. Additionally, Gd-BOPTA/Dimeg allows sites of abscesses and systemically damaged tissue to be distinguished from healthy liver. Taken together these mechanistically-supported properties qualify the product as a versatile general MR contrast agent with added merits in liver imaging.
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PMID:Gadobenate dimeglumine 0.5 M solution for injection (MultiHance) as contrast agent for magnetic resonance imaging of the liver: mechanistic studies in animals. 1060 13

The kidney plays an important role in the elimination of numerous hydrophilic xenobiotics, including drugs, toxins, and endogenous compounds. It has developed high-capacity transport systems to prevent urinary loss of filtered nutrients, as well as electrolytes, and simultaneously to facilitate tubular secretion of a wide range of organic ions. Transport systems for organic anions and cations are primarily involved in the secretion of drugs in renal tubules. The identification and characterization of organic anion and cation transporters have been progressing at the molecular level. To date, many members of the organic anion transporter (OAT), organic cation transporter (OCT), and organic anion-transporting polypeptide (oatp) gene families have been found to mediate the transport of diverse organic anions and cations. It has also been suggested that ATP-dependent primary active transporters such as MDR1/P-glycoprotein and the multidrug resistance-associated protein (MRP) gene family function as efflux pumps of renal tubular cells for more hydrophobic molecules and anionic conjugates. Tubular reabsorption of peptide-like drugs such as beta-lactam antibiotics across the brush-border membranes appears to be mediated by two distinct H+/peptide cotransporters: PEPT1 and PEPT2. Renal disposition of drugs is the consequence of interaction and/or transport via these diverse secretory and absorptive transporters in renal tubules. Studies of the functional characteristics, such as substrate specificity and transport mechanisms, and of the localization of cloned drug transporters could provide information regarding the cellular network involved in renal handling of drugs. Detailed information concerning molecular and cellular aspects of drug transporters expressed in the kidney has facilitated studies of the mechanisms underlying renal disposition as well as transporter-mediated drug interactions.
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PMID:Cellular and molecular aspects of drug transport in the kidney. 1097 58

We have recently identified that rat organic anion transporters, polypeptide2 (oatp2) and oatp3, both of which transport thyroid hormones. However, in humans the molecular organization of the organic anion transporters has diverged, and the responsible molecule for thyroid hormone transport has not been clarified, except for human liver-specific transporter (LST-1) identified by us. In this study we isolated and characterized a novel human organic anion transporter, OATP-E from human brain. The isolated complementary DNA encodes a polypeptide of 722 amino acids with 12 transmembrane domains. A rat counterpart, oatp-E, was also identified. Homology analysis and the phylogenetic tree analysis revealed that OATP-E/oatp-E is a subfamily of the organic anion transporter. Human OATP-E transported 3,3',5-triiodo-L-thyronine (K(m), 0.9 microM), thyronine, and rT(3) in a Na(+)-independent manner. Although the clone was isolated from the brain, OATP-E messenger RNA was abundantly expressed in various peripheral tissues. The rat counterpart, oatp-E, also transported 3,3',5-triiodo-L-thyronine. In addition, in this study we revealed that human OATP, which is exclusively expressed in the brain, transported 3,3',5-triiodo-L-thyronine (K(m), 6.5 microM), T(4) (K(m), 8.0 microM), and rT(3). These data suggest that in humans, several different molecules are involved in transporting thyroid hormone: OATP in the brain, LST-1 in the liver, and OATP-E in peripheral tissues.
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PMID:Identification of thyroid hormone transporters in humans: different molecules are involved in a tissue-specific manner. 1131 67

Uptake of organic solutes and xenobiotics by mammalian cells is mediated by ATP-independent transporters, and four families of transporters have now been identified. To search for novel organic solute transporters, a liver cDNA library from an evolutionarily primitive marine vertebrate, the little skate Raja erinacea, was screened for taurocholate transport activity by using Xenopus laevis oocytes. In contrast to the organic anion transporters identified to date, a transport activity was identified in this library that required the coexpression of two distinct gene products, termed organic solute transporter alpha and beta (Ostalpha, Ostbeta). Ostalpha cDNA encodes for a protein of 352 aa and seven putative transmembrane (TM) domains. Ostbeta contains 182 aa and has at least one and perhaps two TM domains. There is no significant sequence identity between Ostalpha and Ostbeta, and only low identity with sequences in the databases; however, Ostalpha bears a resemblance to some G protein-coupled receptors, and Ostbeta exhibits 22% amino acid identity with the C-terminal TM and intracellular domains of protocadherin-gamma, a cell surface glycoprotein. Xenopus oocytes injected with the cRNA for both Ostalpha and Ostbeta, but not each separately, were able to take up taurocholate, estrone sulfate, digoxin, and prostaglandin E(2), but not p-aminohippurate or S-dinitrophenyl glutathione. Transport was sodium-independent, saturable, and inhibited by organic anions and steroids, including the major skate bile salt, scymnol sulfate. These results identify an organic anion transporter composed of a putative seven-helix TM protein and an ancillary membrane polypeptide.
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PMID:Expression cloning of two genes that together mediate organic solute and steroid transport in the liver of a marine vertebrate. 1147 Sep 1

Human trophoblasts depend on the supply of external precursors, such as dehydroepiandrosterone-3-sulfate (DHEA-S) and 16 alpha-OH-DHEA-S, for synthesis of estrogens. The aim of the present study was to characterize the uptake of DHEA-S by isolated mononucleated trophoblasts (MT) and to identify the involved transporter polypeptides. The kinetic analysis of DHEA-(35)S uptake by MT revealed a saturable uptake mechanism (K(m) = 26 microM, V(max) = 428 pmol x mg protein(-1) x min(-1)), which was superimposed by a nonsaturable uptake mechanism (diffusion constant = 1.2 microl x mg protein(-1) x min(-1)). Uptake of [(3)H]DHEA-S by MT was Na(+) dependent and inhibited by sulfobromophthalein (BSP), steroid sulfates, and probenecid, but not by steroid glucuronides, unconjugated steroids, conjugated bile acids, ouabain, p-aminohippurate (PAH), and bumetanide. MT took up [(35)S]BSP, [(3)H]estrone-sulfate, but not (3)H-labeled ouabain, estradiol-17beta-glucuronide, taurocholate, and PAH. RT-PCR revealed that the organic anion-transporting polypeptides OATP-B, -D, -E, and the organic anion transporter OAT-4 are highly expressed, and that OATP-A, -C, -8, OAT-3, and Na(+)-taurocholate cotransporting polypeptide (NTCP) are not or are only lowly expressed in term placental tissue and freshly isolated and cultured trophoblasts. Immunohistochemistry of first- and third-trimester placenta detected OAT-4 on cytotrophoblast membranes and at the basal surface of the syncytiotrophoblast. Our results indicate that uptake of steroid sulfates by isolated MT is mediated by OATP-B and OAT-4 and suggest a physiological role of both carrier proteins in placental uptake of fetal-derived steroid sulfates.
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PMID:Characterization and identification of steroid sulfate transporters of human placenta. 1240 83

The physiological characterstics of allo-cholic acid (ACA), a typically fetal bile acid that reappears during liver regeneration and carcinogenesis were investigated. [(14)C] Tauro-ACA (TACA) uptake by Chinese hamster ovary cells expressing rat organic anion transporter polypeptide (Oatp)1 or sodium-taurocholate cotransporter polypeptide (Ntcp) was lower than that of [(14)C]taurocholic acid (TCA). Although TACA inhibited ATP-dependent TCA transport across plasma membrane vesicles from Sf9 cells expressing rat or mouse bile salt export pump (Bsep), no ATP-dependent TACA transport was found. In rats, TACA was secreted into bile with no major biotransformation and it had lower clearance and longer half-life than TCA. In mice, TACA bile output was lower (-50%) than that of TCA, whereas TACA induced 9-fold higher bile flow than TCA. Even though the intracellular levels were lower for TACA, translocation into the hepatocyte nucleus was higher for TACA than for TCA; however, rate of DNA synthesis, expression levels of alpha-fetoprotein, albumin, Ntcp, and Bsep, cell viability, and apoptosis in rat hepatocytes were similarly affected by both isomers. In conclusion, TACA partly shares hepatocellular uptake system(s) for TCA. Furthermore, in contrast to other "flat" bile acids, TACA is efficiently secreted into bile via transport system(s) other than Bsep and is highly choleretic, hence its appearance during certain situations may prevent accumulation of cholestatic precursors.
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PMID:Physiological characteristics of allo-cholic acid. 1251 26

Xenobiotic transport in the mammary gland has tremendous clinical, toxicological and nutritional implications. Mechanisms such as passive diffusion, carrier-mediated transport, and transcytosis mediate xenobiotic transfer into milk. In vivo animal and human studies suggest the functional expression of both xenobiotic and nutrient transporters in the lactating mammary gland and the potential involvement of such systems in the significant accumulation of certain compounds in milk. In vitro cell culture systems provide further evidence for carrier-mediated transport across the lactating mammary epithelium. Additionally, molecular characterization studies indicate the expression of various members of the organic cation transporter, organic anion transporter, organic anion polypeptide transporter, oligopeptide transporter, nucleoside and nucleobase transporter, multidrug resistant transporter, and multidrug resistant-like protein transporter families at the lactating mammary epithelium. The in vivo relevance of the expression of such xenobiotic and nutrient transporters and their involvement in drug disposition at the mammary gland requires investigation.
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PMID:Xenobiotic transporter expression and function in the human mammary gland. 1270 48


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