Cloning and Functional Characterization of Human Sodium-dependent Organic Anion Transporter (SLC10A6)

We have cloned human sodium-dependent organic anion transporter (SOAT) cDNA, which consists of 1502 bp and encodes a 377-amino acid protein. SOAT shows 42% sequence identity to the ileal apical sodium-dependent bile acid transporter ASBT and 33% sequence identity to the hepatic Na+/taurocholate-cotr...

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Published in:The Journal of biological chemistry 2007-07, Vol.282 (27), p.19728-19741
Main Authors: Geyer, Joachim, Döring, Barbara, Meerkamp, Kerstin, Ugele, Bernhard, Bakhiya, Nadiya, Fernandes, Carla F., Godoy, José R., Glatt, Hansruedi, Petzinger, Ernst
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Biological Transport, Active - drug effects
Biological Transport, Active - physiology
Cell Line
Cloning, Molecular
DNA, Complementary - genetics
DNA, Complementary - metabolism
Female
Humans
Male
Membrane Transport Modulators - pharmacology
Molecular Sequence Data
Organ Specificity - physiology
Organic Anion Transporters - genetics
Organic Anion Transporters - metabolism
Organic Anion Transporters, Sodium-Dependent - genetics
Organic Anion Transporters, Sodium-Dependent - metabolism
Pancreas - metabolism
Placenta - metabolism
Pregnancy
Protein Processing, Post-Translational - physiology
Sequence Homology, Amino Acid
Symporters - genetics
Testis - metabolism
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Summary:We have cloned human sodium-dependent organic anion transporter (SOAT) cDNA, which consists of 1502 bp and encodes a 377-amino acid protein. SOAT shows 42% sequence identity to the ileal apical sodium-dependent bile acid transporter ASBT and 33% sequence identity to the hepatic Na+/taurocholate-cotransporting polypeptide NTCP. Immunoprecipitation of a SOAT-FLAG-tagged protein revealed a glycosylated form at 46 kDa that decreased to 42 kDa after PNGase F treatment. SOAT exhibits a seven-transmembrane domain topology with an outside-to-inside orientation of the N-terminal and C-terminal ends. SOAT mRNA is most highly expressed in testis. Relatively high SOAT expression was also detected in placenta and pancreas. We established a stable SOAT-HEK293 cell line that showed sodium-dependent transport of dehydroepiandrosterone sulfate, estrone-3-sulfate, and pregnenolone sulfate with apparent Km values of 28.7, 12.0, and 11.3 μm, respectively. Although bile acids, such as taurocholic acid, cholic acid, and chenodeoxycholic acid, were not substrates of SOAT, the sulfoconjugated bile acid taurolithocholic acid-3-sulfate was transported by SOAT-HEK293 cells in a sodium-dependent manner and showed competitive inhibition of SOAT transport with an apparent Ki value of 0.24 μm. Several nonsteroidal organosulfates also strongly inhibited SOAT, including 1-(ω-sulfooxyethyl)pyrene, bromosulfophthalein, 2- and 4-sulfooxymethylpyrene, and α-naphthylsulfate. Among these inhibitors, 2- and 4-sulfooxymethylpyrene were competitive inhibitors of SOAT, with apparent Ki values of 4.3 and 5.5 μm, respectively, and they were also transported by SOAT-HEK293 cells.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M702663200