In this study, a novel sodium-dependent organic anion transporter (Soat) was identified. Soat is expressed in rat brain, heart, kidney, lung, muscle, spleen, testis, adrenal gland, small intestine, and colon. The Soat protein consists of 370 amino acids and shows 42% and 31% overall amino acid sequence identity to the ileal sodium-dependent bile acid transporter (Isbt) and the Na(+)/taurocholate cotransporting polypeptide (Ntcp), respectively. Soat is predicted to have nine transmembrane domains, with an N-terminus outside the cell and an intracellular C-terminus. The Soat gene is localized on chromosome 14 and is coded by six exons mapped in region 14p22. When expressed in Xenopus laevis oocytes, Soat shows transport function for estrone-3-sulfate (Km = 31 microM, Vmax = 5557 fmol/oocyte/30 min) and dehydroepiandrosterone sulfate (Km = 30 microM, Vmax = 5682 fmol/oocyte/30 min). Soat does not transport taurocholate, estradiol-17beta-glucuronide, nor ouabain.

Organic anion transporters (OATs) and organic anion transporting polypeptides (OATPs) are transport proteins that mediate exchange of metabolites, hormones and waste products. Directional transport by these transporters can occur when exchange is coupled to the gradients of other substrates. This study investigates whether the activity of OATP4A1 and OATP2A1 on the maternal facing microvillus membrane of the placental syncytiotrophoblast is coupled to the glutamate gradient. OAT and OATP transporter proteins were over expressed in Xenopus oocytes to study their transport characteristics. Further transport studies were performed in term human placental villous fragments. Xenopus oocytes expressing OATP4A1 mediated glutamate uptake. No glutamate transport was observed in oocytes expressing OAT1, OAT3, OAT7 or OATP2A1. In oocytes expressing OATP4A1, uptake of estrone sulphate, thyroid hormones T3 and T4 and the bile acid taurocholate stimulated glutamate efflux. In term placental villous fragments addition of estrone sulphate and taurocholate trans-stimulated glutamate efflux. Coupling of OATP4A1 to the glutamate gradient may drive placental uptake of estrone-sulphate and thyroid hormone while also facilitating uptake of potentially harmful bile acids. In contrast, if OATP2A1 is not coupled to a similar gradient, it may function more effectively as an efflux transporter, potentially mediating efflux of prostaglandins to the mother. This study provides further evidence for glutamate as an important counter-ion driving transport into the placenta.

The Gef1 protein of the yeast Saccharomyces cerevisiae (Gef1p) has amino acid homology to the voltage-gated CLC chloride channel family. It has been postulated that it provides the compensatory transport of Cl- anions to the lumen of the Golgi thereby regulating the pH of this compartment. Using GEF1 fusion with heterologous promoter we obtained a yeast strain highly overproducing Gef1p. The electrophysiological properties of the microsomal fraction obtained from this strain were measured using lipid bilayer system. Our data indicate that Gef1p is associated with the chloride channel activity. This anion-selective channel has a unitary conductance of 42 pS when measured in symmetrical 600/600 mM TEA-Cl solutions, is voltage-dependent, and closes at high negative voltages.