Influence of membrane structure on ion transport through lipid bilayer membranes

Summary Charge-pulse relaxation studies with the positively charged PV-K⁺ complex (cyclo-(d-Val-l-Pro-l-Val-d-Pro)₃) and the negatively charged lipophilic ion dipicrylamine (DPA^–) have been performed in order to study the influence of structural properties on ion transport through lipid bilayer membranes. First, the thickness of monoolein membranes was varied over a wide range using differentn-alkanes and slovent-free membranes. The thickness (d) of the hydrocarbon core of these membranes varied between 4.9 and 2.5 nm. For both transport systems the partition coefficient was found to be rather insensitive to variations ind. The same was valid for the translocation rate constantk _MS of PV-K⁺, whereas a strong increase of the translocation rate constantk _i of DPA-with decreasingd was observed. In a further set of experimental conditions the structure of the lipids, such as number and position of the double bonds in the hydrocarbon chain and its chain length as well as the nature of the polar head group, was varied. The translocation constantk _MS of PV-K⁺ transport was found to be much more sensitive to these variations thank _i of DPA-.Much larger variations ink _i andk _MS were observed in membranes made from lipids with ether instead of ester linkages between glycerol backbone and hydrocarbon chain. The results are in qualitative agreement with the surface potentials of monolayers made from corresponding lipids. Increasing amounts of cholesterol in membranes of dioleoylphosphatidylcholine caused a strong decrease ofk _MS (PV-K⁺), whereask _i was found to be rather insensitive to this variation.In monoolein membranes cholesterol causes a decrease ofk _MS up to sixfold and a increase ofk _i up to eightfold. The partition coefficient of DPA^– was insensitive to cholesterol, whereas of PV-K⁺ was found to decrease about eightfold in these membranes. The influence of cholesterol onk _MS is discussed on the basis of viscosity changes in the membrane and the change ink _i of DPA^– and of PV-K⁺ on the basis of a possible change of the dipole potential of the membranes. The other sterols, epicholesterol and ergosterol cause no change in the kinetics of the two probes.The different influence of membrane properties like thickness, viscosity, and dipole potential on the two transport systems is discussed under the assumption that the adsorption planes of the two probes have different positions in a membrane. Possibly because of a larger hydrophobic interaction, the adsorption plane of PV-K⁺ is located more towards the hydrocarbon side and that of DPA^– more towards the aqueous side of the dipole layer.     

Isolation and characterization of membrane-associated proteoglycans from normal and malignant human mammary epithelial cells

The plasma membrane-associated proteoglycans of a malignant human breast cell line (MDA-MB-231) were compared with the corresponding proteoglycans from a normal cell line (HBL-100). The labeled proteoglycans were isolated from the plasma membranes of cells grown in the presence of [³H]glucosamine and [³⁵S]Na₂SO₄ by extraction with guanidine hydrochloride and subsequently purified by DEAE-ion exchange chromatography. Their structural properties were established by treatment with nitrous acid, heparitinase and chondroitinase ABC, and by gel filtration before and after alkaline -elimination. About 18% of the proteoglycans synthesized by these cell lines were associated with the plasma membranes. The HBL plasma membranes contained 80% heparan sulfate and 20% chondroitin sulfate proteoglycans whereas MDA plasma membranes had 50% heparan sulfate and 50% chondroitin sulfate proteoglycans. The MDA plasma membrane contained two heparan sulfate proteoglycans, both having nearly the same molecular size as the two species secreted into the medium by these cells. The HBL plasma membrane also contained two hydrodynamic size heparan sulfate proteoglycans. The larger hydrodynamic size species has a slightly lower molecular size than that secreted into the medium, and the smaller hydrodynamic size species was not detectable in the medium. Even though the major chondroitin sulfate proteoglycans from MDA plasma membranes were smaller in size than those from HBL plasma membrane, a larger proportion of the glycosaminoglycan chains of the former were bigger than those from the latter.Abbreviations CHAPS 3-[(3-cholamidopropyl)dimethylammonio]propane-1-sulfonate - Di-OS 2-acetamido-2-deoxy-3-O-(-d-gluco-4-ene-pyranosyluronic acid)-d-galactose - Di-4S 2-acetamido-2-deoxy-3-O-(-d-gluco-4-ene-pyranosyluronic acid)-4-O-sulfo-d-galactose - Di-6S 2-acetamido-2-deoxy-3-O-(-d-gluco-4-ene-pyranosyluronic acid)-6-O-sulfo-d-galactose - Gdn-HCl guanidine hydrochloride - WGA wheat germ agglutinin     

Precipitation membranes: III. Reversible changes of membrane properties induced by alterations in ionic concentrations

Summary The conditioned state of a precipitation membrane with its particular properties exists within a limited range of membrane potentials and requires certain minimum concentrations,C _lim, of the generating ions in the adjoining solutions. We investigated these quantities for the BaSO₄ cellophane membrane and foundC _lim to be 10×10^–5 n (0.5×10^–4 m), equally for Ba⁺⁺ and SO ₄ ^–– . Beyond these limits, the membrane becomes deconditioned. This transformation is a reversible process provided the limits have not been surpassed too far. The capability for de- and reconditioning is a characteristic and unique property of precipitation membranes, not found in other membrane systems. The phenomenon is explained by the adsorption theory for precipitation membranes. It allows wide modifications and quick variations of the electrical properties and permeability of the membrane in an easy and reversible manner.     

Kinetic study of gill epithelium permeability to water diffusion in the fresh water trout,Salmo gairdneri: Effect of adrenaline

Summary Using isolated head perfused at constant flow rates, close to those occurringin vivo, the movement of tritiated water through the gill epithelium of the trout,Salmo gairdneri was studied.The analysis of the curves of loading and unloading of tritiated water between the gill epithelium and the external and internal media shows two exponentials with different slopes in each medium. As the rapid exponentials have identical slopes, the external medium, the gill epithelium, and the perfusion medium constitute a system of three compartments in series for water exchanges. The kinetic analysis of rapid exponentials allowed us to calculate the characteristics of water movement through the apical and basal membrane and the size of the pool of water participating in the exchange mechanism.When the trout head is perfused without adrenaline, the permeability of the apical membrane to water is about 8 times higher than that of the basal membrane, the latter constituting the limiting factor for water diffusion.When the trout head is perfused with a perfusion medium containing 10^–5 m adrenaline this hormone produces a double action: it leads to a comparable increase in the permeability of both the apical and basal membranes and also increases the size of the water transport pool by a factor of four.     

Partial purification of the Na+-dependentd-glucose transport system from renal brush border membranes

Summary A membrane extract enriched with the Na⁺-dependentd-glucose transport system was obtained by differential cholate solubilization of rat renal brush border membranes in the presence of 120mm Na⁺ ions. Sodium ions were essential in stabilizing the transport system during cholate treatment. This membrane extract was further purified with respect to its Na⁺-coupledd-glucose transport activity and protein content by the use of asolectin-equilibrated hydroxylapatite. The reconstituted proteoliposomes prepared from this purified fraction showed a transient accumulation ofd-glucose in response to a Na⁺ gradient. The observed rate of Na⁺-coupledd-glucose uptake by the proteoliposomes represented about a sevenfold increase as compared to that of the reconstituted system derived from an initial 1.2% cholate extract of the membranes. Other Na⁺-coupled transport systems such asl-alanine, -ketoglutarate and phosphate were not detected in these reconstituted proteoliposomes.     

Studies on isolated subcellular components of cat pancreas

Summary Transport of alanine was studied in isolated plasma membrane vesicles from cat pancreas using a rapid filtration technique. The uptake is osmotically sensitive and the kinetics ofl-alanine transport are biphasic showing a saturable and a nonsaturable component. The saturable component is seen only when a sodium gradient directed from the medium to the vesicular space is present. Under this condition an overshooting uptake ofl-but not ofd-alanine occurs. The Na⁺ gradient stimulated uptake ofl-alanine is inhibited byl-serine andl-leucine and stimulated when the membrane vesicles had been preloaded withl-alanine,l-serine orl-leucine.The ionophore monensin inhibits stimulation of uptake caused by a sodium gradient. In the presence of valinomycin or carbonyl cyanidep-trifluoromethoxyphenylhydrazone (CFCCP), the sodium-dependent transport is augmented in vesicles preloaded with K₂SO₄ or H⁺ ions (intravesicular pH 5.5), respectively. In the presence of different anions, the Na⁺-dependent transport is stimulated according to increasing anionic penetration through membranes (lipid solubility). We conclude that a sodium dependent electrogenic amino acid transport system is present in pancreatic plasma membranes.     

Effect of NADH dehydrogenase-disruption and over-expression on respiration-related metabolism in <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis> KY9714

The function of type II NADH dehydrogenase (NDH-2) in Gram-positive Corynebacterium glutamicum was investigated by preparing strains with ndh, the NDH-2 gene, disrupted and over-expressed. Although disruption showed no growth defects on glucose minimum medium, the growth rate of the over-expressed strain was lower compared with its parent, C. glutamicum KY9714. Ndh-disruption and over-expression did not lead to a large change in the respiratory chain and energetics, including the cytochrome components and the H⁺/O ratio. However, in the strain that lacked NDH-2, membrane l-lactate oxidase activity increased, while NDH-2 over-expression led to decreased l-lactate and malate oxidase activities. In addition, relatively high cytoplasmic lactate dehydrogenase (LDH) activity was always present as was malate dehydrogenase, irrespective of NDH-2 level. Furthermore, l-lactate or malate-dependent NADH oxidase activity could be reproduced by reconstitution with the membranes and the cytoplasmic fraction isolated from the disruptant. These results suggest that coupling of LDH and the membrane l-lactate oxidase system, together with the malate-dependent NADH oxidase system, operates to oxidize NADH when the NDH-2 function is defective in C. glutamicum.     

Hormonal effects on fatty acid binding and physical properties of rat liver plasma membranes

Summary The fluorescent fatty acids,trans-parimaric andcis-parinaric acid, were used as analogs of saturated and unsaturated fatty acids in order to evaluate binding of fatty acids to liver plasma membranes isolated from normal fed rats. Insulin (10^–8 to 10^–6 m) decreasedtrans-parinaric acid binding 7 to 26% whilecis-parinaric acid binding was unaffected. Glucagon (10^–6 m) increasedtrans-parinaric acid binding 44%. The fluorescence polarization oftrans-parinarate,cis-parinarate and 1,6-diphenyl-1,3,5-hexatriene was used to investigate effects of triiodothyronine, insulin and glucagon on the structure of liver plasma membranes from normal fed rats or from rats treated with triiodothyronine or propylthiouracil. The fluorescence polarization oftrans-parinarate,cis-parinarate, and 1,6-diphenyl-1,3,5-hexatriene was 0.300±0.004, 0.251±0.003, and 0.302±0.003, respectively, in liver plasma membranes from control rats and 0.316±0.003, 0.276±0.003 and 0.316±0.003, respectively, in liver plasma membranes from hyperthyroid rats (p<0.025,n=5). Propylthiouracil treatment did not significantly alter the fluorescence polarization of these probe molecules in the liver plasma membranes. Thus, liver plasma membranes from hyperthyroid animals appear to be more rigid than those of control animals. The effects of triiodothyronine, insulin and glucagon addedin vitro to isolated liver plasma membrane preparations were also evaluated as follows: insulin (10^–10 m) and triiodothyronine (10^–10 m) increased fluorescence polarization oftrans-parinaric acid,cis-parinaric acid and 1,6-diphenyl-1,3,5-hexatriene in liver plasma membranes while glucagon (10^–10 m) had no effects. These hormonal effects on probe fluorescence polarization in liver plasma membranes were abolished by pretreatment of the rats for 7 days with triiodothyronine. Administration of triiodothyronine (10^–10 m)in vitro increased the fluorescence polarization of trans-parinaric acid in liver plasma membranes from propylthiouracil-treated rats. Thus, hyperthyroidism appeared to abolish thein vitro increase in polarization of probe molecules in the liver plasma membranes. Temperature dependencies in Arrhenius plots of absorption-corrected fluorescence and fluorescence polarization oftrans-parinaric acid,cis-parinaric acid and 1,6-diphenyl-1,3,5-hexatriene were noted near 25°C in liver plasma membranes from triiodothyronine-treated rats and near 18°C in liver plasma membranes from propylthiouracil-treated rats. In summary, hormones such as triiodothyronine, insulin and glucagon may at least in part exert their biological effects on metabolism by altering the structure of the liver plasma membranes.     

The Mammalian Orthologs of Drosophila Lgd,CC2D1A and CC2D1B,Function in the Endocytic Pathway,but Their Individual Loss of Function Does Not Affect Notch Signalling

CC2D1A and CC2D1B belong to the evolutionary conserved Lgd protein family with members in all multi-cellular animals. Several functions such as centrosomal cleavage, involvement in signalling pathways, immune response and synapse maturation have been described for CC2D1A. Moreover, the Drosophila melanogaster ortholog Lgd was shown to be involved in the endosomal trafficking of the Notch receptor and other transmembrane receptors and physically interacts with the ESCRT-III component Shrub/CHMP4. To determine if this function is conserved in mammals we generated and characterized Cc2d1a and Cc2d1b conditional knockout mice. While Cc2d1b deficient mice displayed no obvious phenotype, we found that Cc2d1a deficient mice as well as conditional mutants that lack CC2D1A only in the nervous system die shortly after birth due to respiratory distress. This finding confirms the suspicion that the breathing defect is caused by the central nervous system. However, an involvement in centrosomal function could not be confirmed in Cc2d1a deficient MEF cells. To analyse an influence on Notch signalling, we generated intestine specific Cc2d1a mutant mice. These mice did not display any alterations in goblet cell number, proliferating cell number or expression of the Notch reporter Hes1-emGFP, suggesting that CC2D1A is not required for Notch signalling. However, our EM analysis revealed that the average size of endosomes of Cc2d1a mutant cells, but not Cc2d1b mutant cells, is increased, indicating a defect in endosomal morphogenesis. We could show that CC2D1A and its interaction partner CHMP4B are localised on endosomes in MEF cells, when the activity of the endosomal protein VPS4 is reduced. This indicates that CC2D1A cycles between the cytosol and the endosomal membrane. Additionally, in rescue experiments in D. melanogaster, CC2D1A and CC2D1B were able to functionally replace Lgd. Altogether our data suggest a functional conservation of the Lgd protein family in the ESCRT-III mediated process in metazoans.     

Reversible electrical breakdown of lipid bilayer membranes: A charge-pulse relaxation study

Summary Charge-pulse experiments were performed with lipid bilayer membranes from oxidized cholesterol/n-decane at relatively high voltages (several hundred mV). The membranes show an irreversible mechanical rupture if the membrane is charged to voltages on the order of 300 mV. In the case of the mechanical rupture, the voltage across the membrane needs about 50–200 sec to decay completely to zero. At much higher voltages, applied to the membrane by charge pulses of about 500 nsec duration, a decrease of the specific resistance of the membranes by nine orders of magnitude is observed (from 10⁸ to 0.1 cm²), which is correlated with the reversible electrical breakdown of the lipid bilayer membrane. Due to the high conductance increase (breakdown) of the bilayer it is not possible to charge the membrane to a larger value than the critical potential differenceV _c. For 1m alkali ion chloridesV _c was about 1 V. The temperature dependence of the electrical breakdown voltageV _c is comparable to that being observed with cell membranes.V _c decreases between 2 and 48°C from 1.5 to 0.6 V in the presence of 1m KCl.Breakdown experiments were also performed with lipid bilayer membranes composed of other lipids. The fast decay of the voltage (current) in the 100-nsec range after application of a charge pulse was very similar in these experiments compared with experiments with membranes made from oxidized cholesterol. However, the membranes made from other lipids show a mechanical breakdown after the electrical breakdown, whereas with one single membrane from oxidized cholesterol more than twenty reproducible breakdown experiments could be repeated without a visible disturbance of the membrane stability.The reversible electrical breakdown of the membrane is discussed in terms of both compression of the membrane (electromechanical model) and ion movement through the membrane induced by high electric field strength (Born energy).     

Carrier-mediated ion transport through black membranes of lipid mixtures and its coupling to Ca++-induced phase separation

Summary Voltage jump-current relaxation experiments have been performed with valinomycin-doped membranes of mixtures of 1,2-dipentadecylmethylidene-glycero-3-phosphorylcholine (PC) and charged-phosphatidic acid (PA). Both relaxation processes predicted by a simple carrier model could be resolved which allowed the calculation of the rate constants of the Rb⁺ transport. The dependence of the rate constants on the membrane composition indicates that (i) the lipids in the mixed membranes are homogeneously distributed and that (ii) no major difference exists between the composition of the membrane and that of the torus. The analysis of the stationary conductance data, however, shows that the valinomycin content of the mixed membranes depends strongly on their lipid composition. Addition of Ca⁺⁺ ions to a 11 mixture induces a phase separation into PA domains of very low conductivity and PC-enriched regions of high conductivity. Half saturation is reached atc _ca=5×10^–4 m. At 10^–2 m Ca⁺⁺ in the aqueous phase, the rate constants clearly indicate that all PA molecules are electrically passivated and only pure PC domains contribute to the membrane current. A detailed picture is thus derived of the coupling of a model transport system to the externally triggered membrane reorganization.     

Specific binding sites for corticosterone in isolated cells and plasma membrane from rat liver

Summary The specific binding of [³H]corticosterone to hepatocytes is a nonsaturable, reversible and temperature-dependent process. The binding to liver purified plasma membrane fraction is also specific, reversible and temperature dependent but it is saturable. Two types of independent and equivalent binding sites have been determined from hepatocytes. One of them has high affinity and low binding capacity (K _D=8.8nm andB _max=1477 fmol/mg protein) and the other one has low affinity and high binding capacity (K _D=91nm andB _max=9015 fmol/mg). In plasma membrane only one type of binding site has been characterized (K _D=11.2nm andB _max=1982 fmol/mg). As it can be deduced from displacement data obtained in hepatocytes and plasma membrane the high affinity binding sites are different from the glucocorticoid, progesterone nuclear receptors and the Na⁺,K⁺-ATPase digitalis receptor. Probably it is of the same nature that the one determinate for [³H]cortisol and [³H]corticosterone in mouse liver plasma membrane. Beta-and alpha-adrenergic antagonists as propranolol and phentolamine did not affect [³H]corticosterone binding to hepatocytes and plasma membranes; therefore, these binding sites are independent of adrenergic receptors. The binding sites in hepatocytes and plasma membranes are not exclusive for corticosterone but other steroids are also bound with very different affinities.     

Facilitated Transport of Lactate by Rat Jejunal Enterocyte

L-lactate transport mechanism across rat jejunal enterocyte was investigated using isolated membrane vesicles. In basolateral membrane vesicles l-lactate uptake is stimulated by an inwardly directed H⁺ gradient; the effect of the pH difference is drastically reduced by FCCP, pCMBS and phloretin, while furosemide is ineffective. The pH gradient effect is strongly temperature dependent. The initial rate of the proton gradient-induced lactate uptake is saturable with respect to external lactate with a K _m of 39.2 ± 4.8 mm and a J _max of 8.9 ± 0.7 nmoles mg protein⁻¹ sec⁻¹. A very small conductive pathway for l-lactate is present in basolateral membranes. In brush border membrane vesicles both Na⁺ and H⁺ gradients exert a small stimulatory effect on lactate uptake. We conclude that rat jejunal basolateral membrane contains a H⁺-lactate cotransporter, whereas in the apical membrane both H⁺-lactate and Na⁺-lactate cotransporters are present, even if they exhibit a low transport rate. Received: 22 October 1996/Revised: 11 March 1997     

Alternative ultrastructural localization of Dolichos biflorus lectin binding sites in proton secreting parietal cells of mice

Summary High amount of N-acetyl-d-galactosamine specific lectin binding sites were detected on the canalicular membranes of human parietal cells. Our present model investigations on mice showed that the intracellular distribution of the terminal N-acetyl-d-galactosamine containing glycoprotein highly depends on the actual functional state of the parietal cells. In the normal gastric mucosa 40%–60% of parictal cells react positively after staining with horseradish peroxidase or biotin labelled Dolichos biflorus lectin. Ultrastructurally lectin binding sites occur mainly on the basolateral membrane infoldings in fed animals, while they are present exclusively on the canalicular membranes of fasting mice, suggesting that the alternative appearance of lectin binding sites on the opposite membrane areas of parietal cells is tightly coupled to their main function, to H⁺ secretion.     

Evidence for the presence of specific binding sites for corticoids in mouse liver plasma membranes

Summary The specific binding of [³H]cortisol to plasma membranes purified from mouse liver, studied by the ultrafiltration method, shows the existence of specific binding sites for cortisol. The kinetic parameters of this binding areK _D=4.4nm andB _max=685 fmol/mg protein in presence of 1 m of corticosterone. With respect to the binding of 4nm [³H]cortisol to the membrane, the affinities of the steroids decreased in the following order: deoxycorticosterone>corticosterone>progesterone>cortisol >prednisolone>testosterone>20-hydroxyprogesterone >cortisone. Estradiol, dexamethasone, ouabain and triamcinolone acetonide do not have affinity for this binding site. Neither Ca²⁺ nor Mg²⁺ affected the binding of [³H]cortisol to the plasma membranes. Likewise, the presence of agonists and antagonists of alpha and beta-adrenergic receptors did not modify the binding of [³H]cortisol. The results suggest that the plasma membrane binding site characterized is more specific for corticoids and is different from nuclear glucocorticoid and progesterone receptors.     

Fusion of secretory vesicles isolated from rat liver

Summary Secretory vesicles isolated from rat liver were found to fuse after exposure to Ca²⁺. Vescle fusion is characterized by the occurrence of twinned vesicles with a continuous cleavage plane between two vesicles in freeze-fracture electron microscopy. The number of fused vesicles increases with increasing Ca²⁺-concentrations and is half maximal around 10^–6 m. Other divalent cations (Ba²⁺, Sr²⁺, and Mg²⁺) were ineffective. Mg²⁺ inhibits Ca²⁺-induced fusion. Therefore, the fusion of secretory vesiclesin vitro is Ca²⁺ specific and exhibits properties similar to the exocytotic process of various secretory cells.Various substances affecting secretionin vivo (microtubular inhibitors, local anethetics, ionophores) were tested for their effect on membrane fusion in our system.The fusion of isolated secretory vesicles from liver was found to differ from that of pure phospholipid membranes in its temperature dependence, in its much lower requirement for Ca²⁺, and in its Ca²⁺-specificity. Chemical and enzymatic modifications of the vesicle membrane indicate that glycoproteins may account for these differences.     

Functional characteristics ofl-glutamate,N-methyl-d-aspartate and kainate receptors in isolated brain synaptic membranes

l-Glutamic acid (l-Glu) and other excitatory amino acids and amino acid analogs enhanced [³⁵S]thiocyanate (SCN^–) uptake in isolated-resealed synaptic membrane vesicles. The SCN^– uptake was used as a measure of membrane depolarization to evaluate the characteristics of functional excitatory amino acid receptors in the synaptic membranes.N-Methyl-d-aspartate (NMDA) andl-Glu produced additive effects on SCN^– accumulation indicating the presence of distinctl-Glu and NMDA receptors. On the other hand, kainic acid (KA) andl-Glu shared either common receptor sites or ion channels. The effects of antagonists on NMDA,l-Glu, and KA stimulation of SCN^– influx were consistent with previously reported electrophysiologic observations in intact neurons.     

Transport Systems of Ventricaria ventricosa: I/V Analysis of Both Membranes in Series as a Function of [K+] o

The current-voltage (I/V) profiles of Ventricaria (formerly Valonia) membranes were measured at a range of external potassium concentrations, [K⁺] _o , from 0.1 to 100 mm. The conductance-voltage (G/V) characteristics were computed to facilitate better resolution of the profile change with time after exposure to different [K⁺] _o . The resistance-voltage (R/V) characteristics were computed to attempt resolution of plasmalemma and tonoplast. Four basic electrophysiological stages emerged: (1) Uniform low resistance between −60 and +60 mV after the cell impalement. (2) High resistance between +50 and +150 for [K⁺] _o from 0.1 to 1.0 mm and hypotonic media. (3) High resistance between −150 and −20 mV for [K⁺] _o of 10 mm (close to natural seawater) and hypertonic media. (4) High resistance between −150 and +170 mV at [K⁺] _o of 100 mm. The changes between these states were slow, requiring minutes to hours and sometimes exhibiting spontaneous oscillations of the membrane p.d. (potential difference). Our analysis of the I/V data supports a previous hypothesis, that Ventricaria tonoplast is the more resistive membrane containing a pump, which transports K⁺ into the vacuole to regulate turgor. We associate state (1) with the plasmalemma conductance being dominant and the K⁺ pump at the tonoplast short-circuited probably by a K⁺ channel, state (2) with the K⁺ pump ``off' or short-circuited at p.d.s more negative than +50 mV, state (3) with the K<sup>+</sup> pump ``on,' and state (4) with the pump dominant, but affected by high K⁺. A model for the Ventricaria membrane system is proposed. Received: 5 November 1998/Revised: 11 May 1999     

Some characteristics of Na/K-ATPase from rat intestinal basal lateral membranes

Summary Basal lateral membrane vesicles were isolated from rat intestinal epithelial cells. The sodium potassium triphosphatase (Na/K-ATPase) of these plasma membranes has been characterized by (1) the molecular weight of the phosphorylated intermediate, (2) the sensitivity of the phosphorylated intermediate to hydroxylamine, (3) its ouabain binding constants, and (4) its susceptibility to digestion by pronase. The phosphorylated intermediate was shown by SDS polyacrylamide gel electrophoresis to be a protein of 100,000 Daltons apparent mol wt. Its extensive hydrolysis in hydroxylamine demonstrated that it was an acyl phosphate. The isolated basal lateral membranes bound ouabain with a dissociation constant,K _m (1.5×10^–5 m), similar to the inhibitory constantK _I (3×10^–5 m), measured for ouabain inhibition of the Na/K-ATPase activity. The association rate constant measured for ouabain binding at 22°C was 1.3×10³ m ^–1 sec^–1 and is similar to the association rate constants reported for other tissues and species. The high dissociation rate constant, 3.6×10^–2 sec^–1, is consistent with the insensitivity of the rat to ouabain. Digestion of the intact cells by pronase yielded basal lateral membranes in which the Na/K-ATPase had been unaffected. The phosphorylated intermediate ran as a sharp band at 100,000 Daltons on electrophoresis, and the ouabain dissociation constant appeared to be unchanged. In these membranes, protein stains of polyacrylamide gels revealed digestion of the major high mol wt proteins including the major protein at 100,000 Daltons. This suggests that the Na/K-ATPase represent a minor component, less than 1%, of the basal lateral membrane protein. From these characteristics of the phosphorylated intermediate and the ouabain binding constants, we conclude that the Na/K-ATPase of the basal lateral membranes of rat intestinal epithelial cells is similar to that found in other tissues and species. Estimates of the number of pump sites and the turnover number predict rates of Na transport that are consistent with observed values.This paper is dedicated to the memory of Professor David H. Smyth, FRS, who died on September 10, 1979.     

Calcium-independent K+-selective channel from chromaffin granule membranes

Summary Intact adrenal chromaffin granules and purified granule membrane ghosts were allowed to fuse with acidic phospholipid planar bilayer membranes in the presence of Ca²⁺ (1 mm). From both preparations, we were able to detect a large conductance potassium channel (ca. 160 pS in symmetrical 400 mm K⁺), which was highly selective for K⁺ over Na⁺ (P _k/P _Na = 11) as estimated from the reversal potential of the channel current. Channel activity was unaffected by charybdotoxin, a blocker of the [Ca²⁺] activated K⁺ channel of large conductance. Furthermore, this channel proved quite different from the previously described channels from other types of secretory vesicle preparations, not only in its selectivity and conductance, but also in its insensitivity to both calcium and potential across the bilayer. We conclude that the chromaffin granule membrane contains a K⁺-selective channel with large conductance. We suggest that the role of this channel may include ion movement during granule assembly or recycling, and do not rule out events leading to exocytosis.