Molecular and functional characterization of an organic anion transporting polypeptide cloned from human liver.

Background & Aims: Based on a recently cloned rat liver organic anion transporter, we attempted to clone the corresponding human liver organic anion transporting polypeptide.

Methods: A human liver complementary DNA library was screened with a specific rat liver complementary DNA probe. The human liver transporter was cloned by homology with the rat protein and functionally characterized in Xenopus laevis oocytes.

Characterization of L-carnitine transport by rat kidney brush-border-membrane vesicles.

In the presence of a 100 mM Na+ gradient, transport of L-carnitine into rat renal brush-border-membrane vesicles was linear over 30 s and showed an overshoot at 5 min. The uptake of L-carnitine was clearly less active in the presence of other cations such as Li+, K+, Cs+ or choline. In the presence of a Na+ gradient, L-carnitine uptake after 20 s was much higher for chloride as an anion than for SCN-, NO3-, gluconate or SO4(2-).

In situ localization of the hepatocytic Na+/Taurocholate cotransporting polypeptide in rat liver.

Background/aims: An Na+/taurocholate cotransporting polypeptide (Ntcp) has recently been cloned from rat liver. The aim of this study was to directly characterize the native Ntcp on the protein level and study its in situ distribution in rat liver.

Methods: A rabbit antiserum was raised against a fusion protein containing the maltose-binding protein and the C terminus of Ntcp.

Functional characterization of the basolateral rat liver organic anion transporting polypeptide.

To characterize the transport functions of a recently cloned basolateral organic anion transporting polypeptide of rat hepatocytes we performed further kinetic transport and substrate cis-inhibition studies in organic anion-transporting polypeptide-cRNA injected Xenopus laevis oocytes. The studies demonstrate saturable Na(+)-independent sulfobromophthalein (Michaelis-Menten constant, 1.5 mumol/L) and taurocholate (Michaelis-Menten constant, 50 mumol/L) uptake by organic anion-transporting polypeptide.

Effect of obstructive cholestasis on membrane traffic and domain-specific expression of plasma membrane proteins in rat liver parenchymal cells.

We investigated the effect of bile duct ligation and its release on membrane traffic and plasma membrane protein distribution in rat hepatocytes. Immunofluorescence studies with monoclonal antibodies against six domain-specific surface antigens revealed that bile duct ligation leads to an accumulation of pericanalicular vesicles containing canalicular antigens. All apical antigens could be demonstrated in the basolateral plasma membrane, whereas only one out of three basolateral antigens redistributed to the canalicular plasma membrane.

Expression and characterization of a functional rat liver Na+ bile acid cotransport system in COS-7 cells.

A cDNA for the rat liver sodium-dependent bile acid cotransporter was expressed in COS-7 cells to study the functional properties of the translated protein in a mammalian cell line. A 1.2-kb insert was ligated into a pMAMneo vector and transiently transfected using electroporation.

Apical and basolateral parathyroid hormone receptors in rat renal cortical membranes.

Brush border (BBM) and basolateral membranes (BLM) of rat renal cortical cells separated by free flow electrophoresis revealed two distinct peaks of BBM-specific leucine aminopeptidase and Na+/K(+)-ATPase for BLM. PTH/PTH-related protein (PTHrP) receptors were identified in BBM and BLM. Specific binding of 125 pM [125I]chicken [Tyr36]-PTHrP-(1-36)amide [chPTHrP-(1-36)] to individual fractions of membranes separated by free flow electrophoresis overlapped with the leucine aminopeptidase and Na+/K(+)-ATPase profiles.

Hepatocellular transport of bile acids. Evidence for distinct subcellular localizations of electrogenic and ATP-dependent taurocholate transport in rat hepatocytes.

To investigate whether electrogenic and ATP-dependent taurocholate transport activities are both mediated by the same bile acid-transporting polypeptide in rat liver, we further purified isolated canalicular membrane vesicles by free flow electrophoresis. Removal of most of the contaminating endoplasmic reticulum resulted in a complete loss of electrogenic taurocholate transport from an ecto-ATPase-enriched canalicular membrane subfraction. In contrast, ATP-dependent taurocholate transport remained associated with both an ecto-ATPase-enriched and an ecto-ATPase-free canalicular membrane subfraction.

Functional expression cloning of the canalicular sulfate transport system of rat hepatocytes.

We have cloned a single cDNA encoding the canalicular sulfate transporter of rat liver using Xenopus laevis oocytes as a functional expression system. The cloned cDNA sulfate anion transporter-1 (sat-1) expresses saturable Na(+)-independent sulfate uptake (Km approximately 0.14 mM) that can be inhibited by 4,4'-diisothiocyano-2,2'-disulfonic acid stilbene (DIDS, IC50 = 28 microM) and oxalate, but not by succinate or cholate.

Expression cloning of a rat liver Na(+)-independent organic anion transporter.

Using expression cloning in Xenopus laevis oocytes, we have isolated a cDNA encoding a rat liver organic anion-transporting polypeptide (oatp). The cloned oatp mediated Na(+)-independent uptake of sulfobromophthalein (BSP) which was Cl(-)-dependent in the presence of bovine serum albumin (BSA) at low BSP concentrations (e.g.

Parallel decrease of Na(+)-taurocholate cotransport and its encoding mRNA in primary cultures of rat hepatocytes.

We investigated the molecular mechanism underlying the progressive loss of Na(+)-dependent bile salt uptake in primary cultured rat hepatocytes. A specific cDNA probe was used to quantitate the levels of mRNA encoding the Na(+)-taurocholate-cotransporting polypeptide at various culture times. Hepatocytes were cultured on collagen in the presence of insulin (10(-7) mol/L), dexamethasone (10(-7) mol/L) and 10% fetal calf serum for up to 72 hr.

Ethinylestradiol treatment induces multiple canalicular membrane transport alterations in rat liver.

We investigated the effects of 17 alpha-ethinylestradiol treatment of rats on various transport functions in isolated basolateral and canalicular liver plasma membrane vesicles. Both membrane subfractions were purified to a similar degree from control and cholestatic livers. Although moderate membrane lipid alterations were predominantly observed in basolateral vesicles, no change in basolateral Na+/K(+)-ATPase activity was found.

Evidence for the presence of a phosphatidylcholine translocator in isolated rat liver canalicular plasma membrane vesicles.

In the present study we used the water-soluble short chain phosphatidylcholine analogue L-alpha-dibutyryl-glycero-3-phosphatidylcholine (diC4PC) to investigate the mechanism involved in the canalicular secretion of phospholipids in rat liver. Uptake of 14C-labeled di-C4PC was studied in isolated microsomes as well as in basolateral (sinusoidal) and canalicular plasma membrane vesicles. Saturable uptake of diC4PC into an osmotically active space was observed in microsomes and canalicular membrane vesicles.

Phylogenic and ontogenic expression of hepatocellular bile acid transport.

The phylogenic and ontogenic expression of mRNA for the Na+/bile acid cotransporter was determined by Northern analysis utilizing a full-length cDNA probe recently cloned from rat liver. mRNA was detected in several mammalian species, including rat, mouse, and man, but could not be found in livers from nonmammalian species, including chicken, turtle, frog, and small skate. When expression of the bile acid transporter in developing rat liver was studied, mRNA was detected between 18 and 21 days of gestation, at the time when Na(+)-dependent bile acid transport is first detected.

5'nucleotidase is sorted to the apical domain of hepatocytes via an indirect route.

In hepatocytes, all newly synthesized plasma membrane (PM) proteins so far studied arrive first at the basolateral domain; apically destined proteins are subsequently endocytosed and sorted to the apical domain via transcytosis. A mechanism for the sorting of newly synthesized glycophosphatidylinositol (GPI)-linked proteins has been proposed whereby they associate in lipid microdomains in the trans-Golgi network and then arrive at the apical domain directly. Such a mechanism poses a potential exception to the hepatocyte rule.

ATP-dependent bile-salt transport in canalicular rat liver plasma-membrane vesicles.

The present study identifies and characterizes a novel ATP-dependent bile-salt transport system in isolated canalicular rat liver plasma-membrane (cLPM) vesicles. ATP (1-5 mM) stimulated taurocholate uptake into cLPM vesicles between 6- and 8-fold above equilibrium uptake values (overshoot) and above values for incubations in the absence of ATP. The ATP-dependent portion of taurocholate uptake was 2-fold higher in the presence of equilibrated KNO3 as compared with potassium gluconate, indicating that the stimulatory effect of ATP was not due to the generation of an intravesicular positive membrane potential.

Functional expression cloning and characterization of the hepatocyte Na+/bile acid cotransport system.

Liver parenchymal cells continuously extract high amounts of bile acids from portal blood plasma. This uptake process is mediated by a Na+/bile acid cotransport system. A cDNA encoding the rat liver bile acid uptake system has been isolated by expression cloning in Xenopus laevis oocytes.

Expression of the hepatocellular chloride-dependent sulfobromophthalein uptake system in Xenopus laevis oocytes.

The expression of the basolateral chloride-activated organic anion uptake system of rat hepatocytes has been studied in Xenopus laevis oocytes. Injection of oocytes with rat liver poly(A)+RNA resulted in the functional expression of chloride-dependent sulfobromophthalein (BSP) uptake within 3-5 d. This expressed chloride-dependent BSP uptake system exhibited saturation kinetics (apparent Km approximately 6.

Sphingomyelin synthesis in rat liver occurs predominantly at the cis and medial cisternae of the Golgi apparatus.

The intracellular site of sphingomyelin (SM) synthesis was examined in subcellular fractions from rat liver using a radioactive ceramide analog N-([1-14C]hexanoyl)-D-erythro-sphingosine. This lipid readily transferred from a complex with bovine serum albumin to liver fractions without disrupting the membranes, and was metabolized to radioactive SM. To prevent degradation of the newly synthesized SM to ceramide, all experiments were performed in the presence of EDTA to minimize neutral sphingomyelinase activity and at neutral pH to minimize acid sphingomyelinase activity.

Expression of the hepatocyte Na+/bile acid cotransporter in Xenopus laevis oocytes.

The expression of the basolateral Na+/bile acid (taurocholate) cotransport system of rat hepatocytes has been studied in Xenopus laevis oocytes. Injection of rat liver poly(A)+ RNA into the oocytes resulted in the functional expression of Na+ gradient stimulated taurocholate uptake within 3-5 days. This Na(+)-dependent portion of taurocholate uptake exhibited saturation kinetics (apparent Km approximately 91 microM) and could be inhibited by 4,4'-diisothiocyano-2,2'-disulfonic acid stilbene.

Endocytosis, recycling, and lysosomal delivery of brush border hydrolases in cultured human intestinal epithelial cells (Caco-2).

Lysosomes of intestinal epithelial cells in vivo and in culture display strong immunoreactivity with monoclonal antibodies against various brush border enzymes as visualized by immunoelectron microscopy. Novel subcellular fractionation procedures were developed to study, by the pulse-chase technique and by internalization assays, the pathway along which two microvillar hydrolases, sucrase-isomaltase and dipeptidylpeptidase IV, are transported to lysosomes in the differentiated colon adenocarcinoma cell line Caco-2. 7-9% of metabolically labeled sucrase-isomaltase of dipeptidylpeptidase IV were present in lysosomes after 7-8 h of chase as intact complex-glycosylated molecules.

(Na+ + K+)-ATPase and plasma membrane polarity of intestinal epithelial cells: presence of a brush border antigen in the distal large intestine that is immunologically related to beta subunit.

The previously produced monoclonal antibody IEC 1/48 against cultured rat intestinal crypt cells (Quaroni, A., and K. J.

A novel marker glycoprotein for the microvillus membrane of surface colonocytes of rat large intestine and its presence in small-intestinal crypt cells.

Murine mAbs were produced against purified microvillus membranes of rat colonocytes in order to establish a marker protein for this membrane. The majority of antibodies binding to the colonic microvillus membrane recognized a single protein with a mean apparent Mr of 120 kD in both proximal and distal colon samples. The antigen is membrane bound as probed by phase-partitioning studies using Triton X-114 and by the sodium carbonate extraction procedure and is extensively glycosylated as assessed by endoglycosidase F digestion.