A study of selenate efflux from human placental microvillus membrane vesicles

Selenate efflux from human placental brush border membrane vesicles was studied using an ion-exchange column assay. Selenate efflux was found to be mediated almost exclusively by a temperature dependent DIDS-sensitive pathway. Chromate markedly inhibited selenate efflux: in contrast medium selenate had no effect. It is concluded that selenate and sulphate share a common pathway for transport across the human placental microvillus membrane.Abbreviations DIDS 4-acetamido-4-isothiocyanostilbene-2-2-disulphonate     

Adenosine transport and nitrobenzylthioinosine binding in human placental membrane vesicles from brush-border and basal sides of the trophoblast

Summary The nucleoside transport activity of human placental syncytiotrophoblast brush-border and basal membrane vesicles was compared. Adenosine and uridine were taken up into an osmotically active space. Adenosine was rapidly metabolized to inosine, metabolism was blocked by preincubating vesicles with 2-deoxycoformycin, and subsequent adenosine uptake studies were performed in the presence of 2-deoxycoformycin. Adenosine influx by brush-border membrane vesicles was fitted to a two-component system consisting of a saturable system with apparent Michaelis-Menten kinetics (apparentK _m approx. 150 m) and a linear component. Adenosine uptake by the saturable system was blocked by nitrobenzylthioinosine (NBMPR), dilazep, dipyridamole and other nucleosides. Inhibition by NBMPR was associated with high-affinity binding of NBMPR to the brush-border membrane vesicles (apparentK _d 0.98±0.21nm). Binding of NBMPR to these sites was blocked by adenosine, inosine, uridine, thymidine, dilazep and dipyridamole, and the respective apparentK _i values were 0.23±0.012, 0.36±0.035, 0.78±0.1, 0.70±0.12 (mm), and 0.12 and 4.2±1.4 (nm). In contrast, adenosine influx by basal membrane vesicles was low (less than 10% of the rate observed with brush-border membrane vesicles under similar conditions), and hence no quantitative studies of adenosine uptake could be performed with these vesicles. Nevertheless, high-affinity NBMPR binding sites were demonstrated in basal membrane vesicles with similar properties to those in brushborder membrane vesicles (apparentK _d 1.05±0.13nM and apparentK _i values for adenosine, inosine, uridine, thymidine, dilazep and dipyridamole of 0.14±0.045, 0.54±0.046, 1.26±0.20, 1.09±0.18mm and 0.14 and 3.7±0.5nm, respectively). Exposure of both membrane vesicles to UV light in the presence of [³H]NBMPR resulted in covalent labeling of a membrane protein(s) with a broad apparentM _r on SDS gel electropherograms of 77,000–45,000, similar to that previously reported for many other tissues, including human erythrocytes. We conclude that the maternal (brush-border) and fetal (basal) surface of the human placental syncytiotrophoblast posses broad-specificity, facilitated-diffusion, NBMPR-sensitive nucleoside transporters.     

Serial permeability barriers to water transport in human placental vesicles

Summary Microvillous vesicles were prepared from term human placenta by shearing, differential centrifugation and Mg²⁺ precipitation. Vesicles were purified further on a sucrose density gradient producing two bands with densities of 1.16 to 1.18 g/ml (C1) and 1.13 to 1.15 g/ml (C2). The C2 fraction, which had a 24-fold enrichment of alkaline phosphatase and a three-fold reduction in Na⁺, K⁺-ATPase activity compared to homogenates, was used to measure osmotic water (P _f ) permeability.P _f was measured from the time course of scattered light intensity following exposure of vesicles to specified gradients of impermeant solutes.P _f decreased from 3.0×10^–3 to 0.6×10^–3 cm/sec with increasing gradient size (65 to 730mm; 23°C). Four possible causes of this behavior were examined theoretically and experimentally: an unstirred layer, saturation of water transport, large changes in the vesicle surface area with changes in volume and a structural restriction to vesicle volume change. The measured dependence ofP _f on gradient size and the effect of the channel-forming ionophore gramicidin onP _f fit best to the theoretical dependences predicted by a structural restriction mechanism. This finding was supported by experiments involving the effects onP _f of increased solution viscosity, initial vesicle volume, the magnitude of transmembrane volume flow, and the effects of gradient size on activation energy (E _a) forP _f . The decreasedP _f resulting from a structural restriction limiting vesicle volume change was modeled mathematically as a second barrier in series with the vesicle membrane.E _a measured using a 250-mm inwardly directed sucrose gradient was 5.4±0.6 kcal/mol (T>27°C) and 10.0±0.6 kcal/mol (T<27°C).E _a above 27°C is in the range normally associated with transmembrane passage of water via aqueous channels. Water transport was not inhibited byp-chloromercuribenzenesulfonate.     

Sulfate transport in brush border membrane vesicles prepared from human placental syncytiotrophoblast

Isolated brush-border membrane vesicles prepared from human placenta are known to transport amino acids via a Na⁺-dependent mechanism akin to that found in gut and kidney vesicle preparations. We studied sulfate transport in placental vesicles and failed to identify any Na⁺-dependent uptake mechanism. Rather, uptake is a non-electrogenic process that is trans-stimulated by outwardly directed anion flux which is independent of cation. If anion exchange is tightly coupled $\text{in}\text{vivo}$, the net transfer of sulfate from mother to the growing fetus may be driven by the continuous flux of bicarbonate in the opposite direction.     

Factors affecting chloride conductance in apical membrane vesicles from human placenta

Summary Apical membrane vesicles from human term placenta were isolated using a magnesium precipitation technique, and the purity of the vesicles was assessed morphologically using scanning and transmission electron microscopy, and biochemically, using marker enzymes. The vesicles were found to be morphologically intact and significantly enriched in enzymes associated with apical membranes. ³⁶Cl^– uptake into these vesicles was studied in the presence of an outwardly directed Cl^– gradient. This uptake was found to be time dependent, with an initial rapid uptake tending to peak between 10 and 20 min and thereafter decline. Uptake was found to be voltage dependent since 5 m valinomycin caused a decrease in uptake. The effects of N-phenylanthranilic acid (NPA) and 4,4-diisothiocyanostilbene-2,2-disulphonic acid (DIDS) and bumetanide on the initial rate of Cl^– were examined in the presence and absence of 5 m valinomycin. NPA and DIDS inhibited isotope uptake strongly with IC₅₀ values of 0.83±0.35 m and 3.43±0.37 m, respectively, in the absence of valinomycin. Although valinomycin reduced ³⁶Cl^– uptake by about 80% when added before the isotope, DIDS reduced the uptake which remained in a concentration-dependent fashion with an IC₅₀ of 5.6±2.1 m. Under these conditions, NPA was without effect at concentrations below 100 m. Bumetanide was without effect at the concentrations used in the absence of valinomycin. However, following valinomycin pretreatment, bumetanide reduced ³⁶Cl^– uptake significantly at 100 m concentration. Vesicle diameter, as assessed by flow cytometry, did not change under the conditions employed.The effects of some fatty acids were also investigated. Arachidonic acid and linoleic acid inhibited Cl^– uptake with IC₅₀ values of 37.6±14.9 m and 4.59±0.51 m, respectively. Arachidonyl alcohol and elaidic acid were found to be without effect. These studies show that human placental brush border membrane vesicles possess a chloride conductance channel, the activity of which can be measured in the presence of an outwardly directed Cl^– gradient and this channel is sensitive to Cl^– channel inhibitors, especially N-phenylanthranilic acid, and can be inhibited by unsaturated fatty acids such as arachidonic acid and linoleic acid.This work was supported in part by the Cystic Fibrosis Association of Ireland and Eolas, The Irish Science and Technology Agency. The technical assistance of Mr. Cormac O' Connell in the preparation of the electron micrographs and of Mr. Roddy Monks in the flow cytometric analysis is gratefully acknowledged.     

Insulin inhibition of calcium binding by human placental membrane

Insulin and its analogues displaced membrane-bound calcium within a physiological range of insulin concentration, in proportion to both biological potency and ability to displace porcine ¹²⁵I-labelled insulin from the insulin receptor. Mild tryptic digestion of the membrane reduced insulin binding but did not reduce specific calcium binding. Displacement of membrane-bound calcium by insulin was dependent on insulin binding to its intact receptor. These studies suggest that Ca²⁺ may exert a controlling influence on insulin-receptor binding in vivo.     

幽门螺杆菌外膜囊泡研究进展

幽门螺杆菌(Helicobacter pylori)被认为是引起人类胃部疾病的元凶之一。外膜囊泡(Outer Membrane Vesicles,OMVs)是由细菌外膜自发脱落而形成的囊泡状结构,其具有细菌外膜多数成分,包括外膜蛋白、多糖、脂质以及其他蛋白组分。越来越多的研究正在关注外膜囊泡在幽门螺杆菌感染、发生、发展过程中的作用。同时,研究表明幽门螺杆菌外膜囊泡作为疫苗,在防治幽门螺杆菌感染中也展现了良好的应用潜力。因此,本综述总结了目前关于幽门螺杆菌外膜囊泡组成成分的研究,并讨论了外膜囊泡在幽门螺杆菌存活和致病机制中的作用,以及外膜囊泡在幽门螺杆菌感染治疗中发挥的作用。     

Proteomic analysis of plasma membrane vesicles isolated from the rat renal cortex

Polarized epithelial cells are responsible for the vectorial transport of solutes and have a key role in maintaining body fluid and electrolyte homeostasis. Such cells contain structurally and functionally distinct plasma membrane domains. Brush border and basolateral membranes of renal and intestinal epithelial cells can be separated using a number of different separation techniques, which allow their different transport functions and receptor expressions to be studied. In this communication, we report a proteomic analysis of these two membrane segments, apical and basolateral, obtained from the rat renal cortex isolated by two different methods: differential centrifugation and free-flow electrophoresis. The study was aimed at assessing the nature of the major proteins isolated by these two separation techniques. Two analytical strategies were used: separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) at the protein level or by cation-exchange high-performance liquid chromatography (HPLC) after proteolysis (i.e., at the peptide level). Proteolytic peptides derived from the proteins present in gel pieces or from HPLC fractions after proteolysis were sequenced by on-line liquid chromatography-tandem mass spectrometry (LC-MS/MS). Several hundred proteins were identified in each membrane section. In addition to proteins known to be located at the apical and basolateral membranes, several novel proteins were also identified. In particular, a number of proteins with putative roles in signal transduction were identified in both membranes. To our knowledge, this is the first reported study to try and characterize the membrane proteome of polarized epithelial cells and to provide a data set of the most abundant proteins present in renal proximal tubule cell membranes.     

Outer membrane vesicles from group B Neisseria meningitidis delta gna33 mutant: proteomic and immunological comparison with detergent-derived outer membrane vesicles

We compared the proteome of detergent-derived group B Neisseria meningitidis (MenB) outer membrane vesicles (DOMVs) with the proteome of outer membrane vesicles (m-OMVs) spontaneously released into culture supernatant by MenB delta gna33, a mutant in which the gene coding for a lytic transglycosylase homologous to the E. coli MltA was deleted. In total, 138 proteins were identified in DOMVs by 1- and 2-DE coupled with MS; 64% of these proteins belonged to the inner membrane and cytoplasmic compartments. By contrast, most of the 60 proteins of m-OMVs were classified by PSORT as outer membrane proteins. When tested for their capacity to elicit bactericidal antibodies, m-OMVs elicited a broad protective activity against a large panel of MenB strains. Therefore, the identification of mutations capable of conferring an OMV-releasing phenotype in bacteria may represent an attractive approach to study bacterial membrane composition and organization, and to design new efficacious vaccine formulations.     

Proteomic analysis of outer membrane vesicles derived from Pseudomonas aeruginosa

Pseudomonas aeruginosa, an opportunistic human bacterial pathogen, constitutively secretes outer membrane vesicles (OMVs) into the extracellular milieu. Although recent progress has revealed that OMVs are essential for pathogenesis of P. aeruginosa, their proteins have not been comprehensively analyzed so far. In this study, we identified 338 vesicular proteins with high confidence by five separate LC-MS/MS analyses. This global proteome profile provides a basis for future studies to elucidate the pathological functions of OMVs from P. aeruginosa.     

Characterization of chloride channels in membrane vesicles from the kidney outer medulla

Summary The basolateral membrane of the thick ascending loop of Henle (TALH) of the mammalian kidney is highly enriched in Na⁺/K⁺ ATPase and has been shown by electrophysiological methods to be highly conductive to Cl^–. In order to study the Cl^– conductive pathways, membrane vesicles were isolated from the TALH-containing region of the porcine kidney, the red outer medulla, and Cl^– channel activity was determined by a³⁶Cl uptake assay where the uptake of the radioactive tracer is driven by the membrane potential (positive inside) generated by an outward Cl^– gradient. The accumulation of³⁶Cl^– inside the vesicles was found to be dependent on the intravesicular Cl^– concentration and was abolished by clamping the membrane potential with valinomycin. The latter finding indicated the involvement of conductive pathways. Cl^– channel activity was also observed using a fluorescent potential-sensitive carbocyanine dye, which detected a diffusion potential induced by an imposed inward Cl^– gradient. The anion selectivity of the channels was Cl^–>NO ₃ ^– =I^– gluconate. Among the Cl^– transport inhibitors tested, 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPAB), 4,4-diisothiocyano-stilbene-2,2-disulfonate (DIDS), and diphenylamine-2-carboxylate (DPC) showed IC₅₀ of 110, 200 and 550 m, respectively. Inhibition of³⁶Cl uptake by NPPAB and two other structural analogues was fully reversible, whereas that by DIDS was not. The nonreactive analogue of DIDS, 4,4-dinitrostilbene-2,2-disulfonate (DNDS), was considerably less inhibitory than DIDS (25% inhibition at 200 m). The irreversible inhibition by DIDS was prevented by NPPAB, whereas DPC was ineffective, consistent with its low inhibitory potency. It is proposed that NPPAB and DIDS bind to the same or functionally related site on the Cl^– channel protein.     

Shape variation of bilayer membrane daughter vesicles induced by anisotropic membrane inclusions

A theoretical model of a two-component bilayer membrane was used in order to describe the influence of anisotropic membrane inclusions on shapes of membrane daughter micro and nano vesicles. It was shown that for weakly anisotropic inclusions the stable vesicle shapes are only slightly out-of-round. In contrast, for strongly anisotropic inclusions the stable vesicle shapes may significantly differ from spheres, i.e. they have a flattened oblate shape at small numbers of inclusions in the membrane, and an elongated cigar-like prolate shape at high numbers of inclusions in the vesicle membrane.     

单核细胞增生李斯特菌膜囊泡的制备及生物活性

[背景]细胞外囊泡(Extracellular Vesicles,EVs)是一种在自然界中普遍存在的包含生物学活性物质的囊泡状结构,其中包括革兰氏阳性菌分泌的膜囊泡(MembraneVesicles,MVs).近年来,单核细胞增生李斯特菌(Listeriamonocytogenes,Lm)作为一种能产MVs的革兰氏阳性...     

Uridine transport in basolateral plasma membrane vesicles from rat liver

Summary The characteristics of uridine transport were studied in basolateral plasma membrane vesicles isolated from rat liver. Uridine was not metabolized under transport measurement conditions and was taken up into an osmotically active space with no significant binding of uridine to the membrane vesicles. Uridine uptake was sodium dependent, showing no significant stimulation by other monovalent cations. Kinetic analysis of the sodium-dependent component showed a single system with Michaelis-Menten kinetics. Parameter values were K _M 8.9 m and V _max 0.57 pmol/mg prot/sec. Uridine transport proved to be electrogenic, since, firstly, the Hill plot of the kinetic data suggested a 1 uridine: 1 Na⁺ stoichiometry, secondly, valinomycin enhanced basal uridine uptake rates and, thirdly, the permeant nature of the Na⁺ counterions determined uridine transport rates (SCN^– > NO ₃ ^– > Cl^– > SO ₄ ^2– ). Other purines and pyrimidines cis-inhibited and trans-stimulated uridine uptake.This work has been partially supported by grant PM90-0162 from D.G.I.C.Y.T. (Ministerio de Educación y Ciencia, Spain). B.R.-M. is a research fellow supported by the Nestlé Nutrition Research Grant Programme.     

Sodium uptake mechanisms in brush-border membrane vesicles prepared from rabbit renal cortex

Amiloride-sensitive and amiloride-insensitive components of ²²Na⁺ uptake were examined in brush-border membrane vesicles prepared from rabbit renal cortex. Both components could be stimulated by interior-negative electrical potentials, demonstrating a sodium conductance pathway and an effect of electrical potential on the initial rate of Na⁺/H⁺ exchange.     

Relationship of the Donnan potential to the transmembrane pH gradient in tracheal apical membrane vesicles

Summary Experiments were performed to determine the factors which contribute to the transmembrane pH gradient (pH) and the potential gradient () in apical plasma membrane vesicles isolated from bovine tracheal epithelium. As indicated by the accumulation of¹⁴C-methylamine, the vesicles maintained a pH (inside acidic) which was dependent upon the external pH. The pH was also proportional to the ionic strength of the suspending medium, suggesting that the H⁺ distribution was dictated by a Donnan potential. Measurements of the distribution of⁸⁶Rb⁺ demonstrated an electrical potential gradient across the vesicle membrane, inside negative which was proportional to the medium ionic strength. pH changed in parallel with in response to a variety of imposed conditions. These results are compatible with the existence of a H⁺ conductance in the vesicle membrane. Thus the endogenous electrical and proton gradients may be manipulated and used as a general experimental tool to complement kinetic analysis in investigations of transport mechanism using isolated vesicle preparations.     

Giant membrane vesicles as a model to study cellular substrate uptake dissected from metabolism

In order to use giant vesicles for substrate uptake studies in metabolically important tissues, we characterized giant vesicles isolated from heart, liver, skeletal muscle and adipose tissue. We investigated which cell types and which plasma membrane regions are involved in giant vesicle formation and we examined the presence of transporters for metabolic substrates. Analysis of giant vesicles with markers specific for distinct cell types and distinct domains of the plasma membrane reveals that the plasma membrane of parenchymal cells, but not endothelial cells, are the source of the vesicle membranes. In addition, plasma membrane regions enriched in caveolae and involved in docking of recycling vesicles from the endosomal compartment are retained in giant vesicles, indicating that KCl-induced alterations in recycling processes are involved in giant vesicle formation. Giant vesicles contain vesicular lumen consisting of the soluble constituents of the cytoplasm including, fatty-acid binding proteins. Furthermore, giant vesicles isolated from heart, liver, skeletal muscle and adipose tissue are similar in size (10–15 m) and shape and do not contain subcellular organelles, providing the advantage that substrate fluxes in the different organs can be studied independently of the surface/volume ratio but most importantly in the absence of intracellular metabolism.     

Ion permeability of maize root membrane vesicles: Studies with light scattering

A possible modulation of permeabilities of membrane vesicles to anions and cations was explored by light scattering techniques, evaluated by measuring the capacity of the vesicles to shrink and swell in response to changes of the osmolarity of the incubation medium. Membrane fractions were obtained by phase partition. Purity was evaluated by detection and quantification of membrane enzyme markers: vanadate-sensitive ATPase for the plasma membrane, nitrate-sensitive ATPase for the tonoplast and azide-sensitive ATPase for mitochondria. Membrane vesicles (250 g protein) were exposed to hypertonic solutions of salts (0.6 osmolar). Kinetics of the changes in apparent absorbance at 546 nm were observed by the addition of potassium, nitrate and chloride salts. The diffusion of ions into vesicles was induced by an osmotic gradient across the membrane and brought about volume changes of vesicles. Upon addition of vesicles to the different solutions the following ion permselectivity sequences were observed: PNO ₃ ^– >PCl ^–>PSO ₄ ^2– and PK ⁺PNa ⁺>PNH ₄ ⁺.Abbreviations ATP adenosine 5-triphosphate - EDTA ethylene diaminetetraacetic acid - Tris-Mes (Tris[hydroxymethyl]aminomethane, Mes-(2-[N-Morpholino]ethanesulfonic acid) - PEG polyethylene glycol     

Proteomic analysis of outer membrane vesicles from the probiotic strain Escherichia coli Nissle 1917

Escherichia coli Nissle 1917 (EcN) is a probiotic used for the treatment of intestinal disorders. EcN improves gastrointestinal homeostasis and microbiota balance; however, little is known about how this probiotic delivers effector molecules to the host. Outer membrane vesicles (OMVs) are constitutively produced by Gram‐negative bacteria and have a relevant role in bacteria–host interactions. Using 1D SDS–PAGE and highly sensitive LC–MS/MS analysis we identified in this study 192 EcN vesicular proteins with high confidence in three independent biological replicates. Of these proteins, 18 were encoded by strain‐linked genes and 57 were common to pathogen‐derived OMVs. These proteins may contribute to the ability of this probiotic to colonize the human gut as they fulfil functions related to adhesion, immune modulation or bacterial survival in host niches. This study describes the first global OMV proteome of a probiotic strain and provides evidence that probiotic‐derived OMVs contain proteins that can target these vesicles to the host and mediate their beneficial effects on intestinal function. All MS data have been deposited in the ProteomeXchange with identifier PXD000367 ( http://proteomecentral.proteomexchange.org/dataset/PXD000367 ).