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Here, the oxoglutarate carrier, already isolated from various sources and described in the literature, has been purified from rat brain and reconstituted in proteoliposomes for an accurate kinetic study. The rate of uptake of labelled oxoglutarate and malate has been measured in various conditions, essentially in double substrate experiments. The data so obtained fit the hypothesis that the carrier operates by a uniport-exchange mechanism and provide significant values for the kinetic constants and the equilibrium constants implied in the process. Their analysis leads to the conclusion that the carrier is maximally efficient in the exchange between external malate and internal oxoglutarate, as required by the malate/aspartate shuttle, which should be the main role of the oxoglutarate carrier in brain mitochondria.

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A method for rapid reconstitution of ADP/ATP carrier from Jerusalem artichoke (Helianthus tuberosus L.) tubers mitochondria in proteoliposomes is described. The method is based on the well known property of the Amberlite resin to absorb the detergent allowing proteoliposome formation. This has been achieved by a micro-batchwise technique, using a rotating plate stirrer. An evaluation of the optimal conditions, in comparison with the more usual column method is presented. The purified ADP/ATP carrier, incorporated in proteoliposomes by this method, shows a high transport activity and a higher specific activity with respect to proteoliposomes obtained by the column procedure. Furthermore the proteoliposomal preparations are more homogeneous in size, with a diameter ranging from 300 to 350 nm. The method is suitable for the reconstitution of other membrane transport proteins.

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The kinetics of the transport of citrate by the tricarboxylate transport system located in the inner mitochondrial membrane was studied in proteoliposomes containing the purified carrier protein, in order to verify the previously hypothesized mechanism of uniport (J. Bioenerg. Biomembr. 35, 133-140, 2003) and achieve some information on the kinetic properties of the carrier transport system. For this purpose, a mathematical model has been elaborated and the experimental data were analyzed according to it. The results indicate that the data actually fit with the uniport model, and hence it is confirmed that the carrier has a single binding site for its substrates and can oscillate between the inside and outside form, in both the free and substrate-bound states. The rearrangement of the free form is slower than the bound form in both directions. The dissociation constants for the internal substrate are at least one order of magnitude higher than the one for external citrate. As a consequence of these last two points, the rate of citrate transport by the carrier is much higher when it operates in exchange with another substrate than when it operates in net uniport.

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The tricarboxylate transport system located in the inner mitochondrial membrane was studied as an isolated protein reconstituted in proteoliposomes. The effects on the transport of citrate by various reagents, specific for different aminoacid residues, were analyzed. In the group of SH reagents, it was found that N-ethylmaleimide is an irreversible inhibitor of the citrate-citrate exchange, while HgCl2 and the mercurial mersalyl cause a rapid unidirectional efflux of citrate from liposomes. It was demonstrated that NEM and mercurials act on different SH groups. Dithioerythritol is not able to reverse the effect of mersalyl unless another reagent, pyridoxalphosphate, is present. Pyridoxalphosphate itself, a reagent specific for NH2 residues, is an effective inhibitor of citrate exchange transport, as measured in both influx and efflux, but it has no effect on the mercurial-induced efflux. The same behavior was observed with diethylpyrocarbonate, a reagent specific for histidine and tyrosine residues. Interestingly, a slow basic efflux of internal citrate, in the absence of countersubstrate, was observed in proteoliposomes. Because it is inhibited by the same reagents acting on the exchange process, it is deduced that it is catalyzed by the tricarboxylate carrier. The ability of the carrier to perform a uniport of the substrate suggests the presence of a single substrate binding site on the carrier protein. A preliminary kinetic approach indicates that such a transport model is compatible with this theory.

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The sodium dependent transport system for L-glutamate and L-aspartate localized in the apical part of rat enterocytes has previously been kinetically characterized (Prezioso, G., and Scalera, V. (1996). Biochim. Biophys. Acta 1279, 144-148). In this paper the mechanism by which the potassium cation specifically activates the L-glutamate-sodium cotransport process is investigated. Potassium has been found to act as an activator when it is present inside the membrane vesicles, while its presence outside is ineffective, and the effect is saturable. The kinetic parameters with respect to sodium and glutamate have been compared in the presence and in the absence of the activator. The results indicate that the ordered sodium-sodium glutamate mechanism is not altered by potassium, and that the activation is probably exerted on both the rate determining steps of the transport process. It is proposed that (1) a specific binding site for potassium is present on the inside hydrophilic part of the membrane carrier, (2) the binding of the effector accelerates the intramembrane rearrangement steps of both the disodium glutamate-carrier complex and the free carrier, (3) the affinity of the carrier is lowered with respect to sodium whereas it is increased for glutamate, and (4) K+ antiport is not performed by this carrier.

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The glutamate/aspartate carrier localized in the brush-border membrane vesicles from enterocytes is known as a transport system catalyzing a sodium-substrate cotransport driven by the sodium gradient across the membrane. The kinetics of this transport system is studied by analogy with an enzymatic bi-substrate reaction. The results of this approach can be summarized as follows: (1) The dependence of the L-glutamate transport rate on the sodium concentration is sigmoidal, and the stoichiometry of the transport is 2 Na+/1 glutamate/1 carrier molecule. (2) The mechanism is sequential ordered, with L-glutamate binding after both the sodium cations. In addition, there is a very high degree of cooperativity between the two sodium binding sites.

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The uptake of myo-inositol into rat intestinal brush border membrane vesicles (BBMV) has been investigated. It is demonstrated that myo-inositol is transported into the vesicles by a secondary active process, specifically using the sodium gradient as the driving force. In the absence of sodium gradient, the transport reaction is still sodium dependent, and rheogenic, indicating that a myo-inositol/sodium cotransport is likely to occur. A kinetic analysis shows an hyperbolic saturation process with a Km of 0.16 +/- 0.02 mM with respect to myo-inositol and Vmax of 68.5 +/- 21.2 pmol/min per mg protein. The transport is inhibited by D-glucose, phloridzin and few other sugars. The mechanism of D-glucose inhibition appears to be of the mixed type. Finally, the myo-inositol transport is trans-activated by myo-inositol itself, but not by D-glucose. It is concluded that myo-inositol is transported into rat intestine BBMV by a specific transport system, which is also able to bind D-glucose, but not efficiently transport it across the membrane.

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The Na+-dependent glycine uptake in pig kidney cortex brush-border membrane vesicles is specifically enhanced by the presence of Cl-. The Na+-independent glycine uptake is not affected by Cl-. Various anions tested could not substitute Cl- in the activation of the Na+-dependent glycine transport. Cl- is specifically required on the outer membrane side. The Na+-dependent glycine uptake is higher in the presence of an inwardly directed Cl- gradient than the one measured in the presence of equilibrated Cl-. The Na+-dependent glycine uptake depends on, and is saturable at increasing Cl- concentrations. By studying the activation of glycine uptake by Na+ in the presence and in the absence of Cl-, evidence was found that two different Na+-dependent glycine transport pathways are present in pig kidney cortex brush-border membrane vesicles. The kinetics of the glycine uptake measured in the presence of an inwardly directed NaCl gradient show the presence of two glycine transport systems, a low-affinity, high-capacity one and a high-affinity, low capacity one. In the absence of Cl- the high-affinity, low-capacity transport is almost suppressed, thus indicating the presence of a high-affinity glycine transport system simultaneously dependent on both Na+ and Cl- ions.

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The phosphorylation of rat renal brush border membrane protein was analyzed after incubation of cortical slices with 32P-orthophosphate and compared with the phosphorylation by gamma-32P-ATP of isolated brush border vesicles. Phosphate incorporation into brush border membranes isolated from slices was linearly related to the incubation time as well as to the specific activity of orthophosphate present during slice incubation. Incorporation of phosphate into proteins reached an equilibrium after about 60 min, whereas incorporation of phosphate into lipids increased continuously. In brush border membranes isolated from slices incubated with orthophosphate (32P), the addition of cAMP or theophylline produced a dephosphorylation of a 47,000-dalton protein; no increased phosphorylation was observed. In brush border membranes, phosphorylated with gamma-32P-ATP, cAMP and dibutyryl cAMP (dB-cAMP) produced an increase in phosphorylation but no dephosphorylation. Sodium-dependent phosphate transport in brush border membranes was not altered by an incubation of slices with cAMP or dB-cAMP. These observations suggest that the phosphorylation machinery of isolated rat renal brush border membranes does not correspond with the mechanisms leading to phosphate incorporation into brush border membrane proteins in the intact cell.

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The uptake of glycine in osmotically active brush border membrane vesicles (obtained by the Mg++ precipitation method) has been studied and a partial characterization of its transport system has been established. The glycine uptake in these vesicles was stimulated by the presence of sodium and in the presence of an inwardly directed Na+ -gradient glycine was accumulated inside the vesicles. The effect of Na+ was specific; other monovalent cation as Li+, K+, Rb+ and choline were uneffective in the stimulation of glycine uptake, under the same experimental conditions. Preliminary experiments show an important role of some anions on the glycine uptake. A strong inhibition in the uptake rate was found when the measurements were carried out in the presence of sodium cyclamate, while in the presence of NaSCN the measured uptake values were similar to those observed in the presence of NaCl.

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A possible correlation between cyclic-AMP dependent protein phosphorylation and altered sodium dependent transport of inorganic phosphate was analyzed in isolated rat renal proximal tubular brush border membrane vesicles. In transiently opened vesicles (opened by an osmotic shock), the addition of gamma-32P-ATP leads to 32P-incorporation into several membrane proteins. The simultaneous addition of cyclic-AMP leads to increased phosphorylation of several proteins (e.g. apparent molecular weights: 40 kD, 46 kD, 55 kD). The addition of ATP, GTP and ITP to the osmotic shock medium leads to an (non-specific) inhibition of the sodium gradient dependent phosphate uptake. No further inhibition of the sodium dependent phosphate transport was observed when membrane vesicles were phosphorylated by ATP in the presence of cyclic-AMP. These data show a lack of correlation between cyclic-AMP dependent protein phosphorylation and altered sodium gradient dependent phosphate transport. Thus, there is no experimental support for the involvement of cyclic-AMP dependent protein phosphorylation as one of the final events in the regulation of phosphate transport across the rat renal proximal tubular brush border membrane.

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The effect of cyclic nucleotides and cholera toxin on the phosphorylation of the brush border membrane proteins of the rat jejunum was studied. Phosphorylation was analyzed by autoradiography of brush border membrane proteins separated by SDS-polyacrylamide gel electrophoresis. Phosphorylation was performed either in vivo by perfusion of the jejunum with [32P]orthophosphate followed by an analysis of the isolated membranes or in vitro by phosphorylation of isolated brush border membranes by [gamma-32P]ATP in the presence of saponin. The addition of cholera toxin (10 micrograms/ml) or dibutyryl-cAMP (5 mmol/l) to the perfusate was unable to produce significant changes in the phosphoprotein pattern. On the other hand, cAMP (at 5 mumol/l) induced an increase of the phosphorylation of a 86 kDa protein when freshly isolated brush border membranes were phosphorylated by [gamma-32P]ATP. However, the same effect could also be induced by low concentrations of cGMP (0.1 mumol/l). It is concluded that brush border membranes from rat jejunum do not contain cAMP-dependent protein kinase activity and that cAMP-dependent protein phosphorylation of this membrane does probably not represent the final event of cholera toxin-induced secretion.

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Cultured monolayers of dog kidney (MDCK) cells display many features of in vivo epithelia. This work describes the identification of two separate strains of MDCK cell with entirely different properties. Strain I cells form epithelial monolayers which display a high electrical resistance (4.1 k omega . cm-2); the basal short-circuit is small (approx. 0.5 muamp . cm-2) and is stimulated by adrenaline (1 micrometer) prostaglandin E1 (1 micrometer) and arginine vasopressin (2 micrometer) added to the basal bathing solution. Strain II cells form epithelial monolayers of low electrical resistance; the short circuit current is insensitive to adrenaline, prostaglandin E1 and vasopressin. Strain II cells possess measurable activities of alkaline phosphatase and gamma-glutamyl transpeptidase whereas Strain I cells do not. The specific activity of the (Na+ + K+)-ATPase is two-fold greater in Strain II compared with Strain I. The polypeptide composition of the apical membrane differs substantially between the two cell strains as revealed by radio-iodination of external membrane proteins. Monolayer morphology is substantially different between two cell strains. The results are discussed in relation to previous work on MDCK epithelial and the two types of cell monolayer compared with in vivo tubule segments.

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Basal-lateral membranes were separated in a self-orienting Percoll (modified colloidal silica) gradient from a heavy microsomal membrane fraction by centrifugation at 48,000g for 0.5 h. The (Na+--K+)-ATPase activity as a marker enzyme for the basal-lateral plasma membrane was 20-fold enriched by this procedure. The adenylate-cyclase activity measured in the basal-lateral membrane fraction was stimulated 6-fold by parathyrin and only up to 1.5-fold by arginine-vasopressin, calcitonin, or isoproterenol. The yield of basal-lateral plasma membranes was 5 to 10 percent of the amount initially present in the homogenate. The method is also applicable to the pig kidney.

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A method was developed for the analytical and preparative isolation of basolateral plasma membranes from rat small intestine. They were separated on a self-orientating Percoll (modified colloidal silica) gradient starting with a heavy microsomal-membrane fraction and involving centrifugation at 48,000 g for 1 h. (Na+ + K+)-stimulated ATPase activity, used as a marker enzyme for the basolateral plasma membrane, is enriched 20-fold compared with that found in the homogenate of isolated intestinal epithelial cells.

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