Comparison of brush border membrane vesicles prepared by three methods from larval Manduca sexta midgut

Brush border membrane vesicles (BBMV) were prepared from freshly isolated posterior larval Manduca sexta midguts by differential calcium precipitation, differential magnesium precipitation and differential ultrasonication. BBMV were also prepared from frozen posterior larval M. sexta midguts by differential calcium precipitaion and differential magnesium precipitation. The yield of BBMV by both differential precipitation methods was 5–6 times greater than that by the differential ultrasonification method. Enrichments of the brush border membrane marker enzymes alkaline phosphatase, γ-glutamyl transferase, and aminopeptidase were similar in all preparations. The polypeptide composition of all preparations was also similar. The specific activity of mitochondrial and microsomal marker enzymes was higher in BBMV prepared from freshly isolated midguts by the differential precipitation methods than in BBMV prepared by the ultrasonication method. The specific activity of cytochrome-c oxidase was 2.5–7 times higher in BBMV prepared from frozen midguts than in BBMV prepared from fresh tissue.     

Isolation and characterization of Brush border fragments from mosquito mesenterons

Brush border fragments were isolated from homogenates of mesenterons from the mosquito, Culex tarsalis, by a combination of Ca²⁺ precipitation and differential centrifugation. These preparations were routinely enriched seven- to eightfold for the brush border marker enzyme, leucine aminopeptidase. Alkaline phosphatase, a putative brush border marker for both vertebrate and invertebrate brush borders, was found to be unsuitable for Cx. tarsalis. Isoelectric focusing electrophoresis coupled with histochemical enzyme detection was used to enumerate isozymic species of nonspecific esterases [3], leucine aminopeptidase [1], and alkaline phosphatase [1] in isolated brush border fragments. Leucine aminopeptidase activity was solubilized by papain digestion, suggesting an extrinsic active site for this membrane-bound enzyme. The predominant nonspecific esterase isozyme remained membrane-bound. Conventional staining (ie, Coomassie Blue and silver) of proteins separated by isoelectric focusing, sodium dodecylsulfate, and two-dimensional electrophoresis indicated a simple pattern for brush border fragments, with two proteins predominating among the 11–14 routinely detected.     

Purification of brush border membrane vesicles from rat renal cortex by size-exclusion chromatography.

Size-exclusion chromatography with controlled pore glass (CPG) was used in the further purification of renal brush border membrane vesicles (BBMV) isolated by the Ca precipitation method. The BBMV obtained had an almost spherical shape and their average diameter was about 95 nm in isotonic solution. The specific activities of alkaline phosphate and leucine aminopeptidase in the BBMV preparation were increased 18- and 17-fold, respectively, over those in the crude homogenate. The uptake of D-glucose by the purified BBMV in the presence of a sodium gradient reached 8.53 nmol/mg protein at 20 s. These results indicate that CPG chromatography is suitable procedure by which to obtain purified renal BBMV of homogenous size and with high specific marker enzyme activity for use in the study of membrane transport.     

Calcium uptake into renal brush border membranes in vitamin B6 deficient rats

The calcium uptake into renal brush border membrane vesicles, which has been purified from normal or vitamin B6 deficient rat renal cortex by calcium precipitation, was investigated. The values of Km and Vmax were determined to be 1.89 mM and 4.26 nmol of Ca2+/mg of protein per 20s in vitamin B6 deficient rats, respectively. This Vmax was lower than that of normal rats. The chemical compositions of renal brush border membranes did not display a difference in normal and vitamin B6 deficient rats. The amount of brush border membranes isolated from 1 gram of renal cortex in vitamin B6 deficient rats was less than in normal rats.     

A simple method of rat renal brush border membrane preparation using polyethylene glycol precipitation

A simple method for preparation of brush border membranes (BBM) from rat kidney using polyethylene glycol (PEG) precipitation has been described. This method avoids the use of cations for the preparation, which might alter membrane lipid composition. These preparations were assessed for enrichment of marker enzymes, contamination by subcellular structures, lipid composition and transport function. An enrichment of 11.8910-fold of alkaline phosphatase, 13.9500-fold of amino peptidase and 13.6500-fold of gamma-glutamyl transpeptidase and an approximate yield of 60% were seen in the final membrane preparation as compared to the homogenate. There was very little contamination of basolateral membranes, peroxisomes, microsomes or lysosomes in the final membrane preparation. Analysis of sugars indicated high content of fucose and sailic acid as compared to hexoses. Isolated membranes appeared as vesicles as seen by electron microscopy. Lipid analysis indicated the presence of various neutral and phospholipids with a high content of sphingomyelin along with a cholesterol/phospholipid ratio of 0.4850. The isolated membrane vesicles were able to transport glucose. This study has shown a simple method of renal brush border membrane preparation, which is comparatively pure and functionally active.     

Effect of parathyroid hormone on Na+-dependent phosphate transport and cAMP-dependent 32P phosphorylation in brush border vesicles from isolated perfused canine kidneys

Concentrative uptake of 32Pi induced by the dissipation of a Na+ gradient (overshoot) was demonstrated in brush border membrane vesicles obtained from isolated perfused canine kidneys. Na+-dependent 32Pi transport was decreased in brush border vesicles from isolated kidneys perfused with parathyroid hormone (PTH) for 2 h compared to uptake measured in vesicles from kidneys perfused without PTH. Cyclic AMP-dependent 32P phosphorylation of a 62,000 Mr protein band was demonstrable on autoradiograms of sodium dodecyl sulfate-polyacrylamide gels of membrane suspensions from kidneys perfused +/- PTH. Evidence that perfusion with PTH resulted in cAMP-dependent phosphorylation in isolated kidneys from parathyroidectomized dogs (decreased cAMP-dependent 32P phosphorylation of the 62,000-Mr band in brush border vesicles) was obtained after 2-h perfusion with PTH. Decreased 32P phosphorylation was not observed if membranes were allowed to dephosphorylate prior to 32P phosphorylation in vitro. We conclude that brush border vesicles from isolated perfused canine kidneys can be used to study the action of PTH on Na+-Pi cotransport in brush border membranes and on cAMP-dependent phosphorylation of the membrane. It is strongly suggested that PTH effects changes in Na+-dependent 32Pi transport in isolated brush border vesicles and changes in 32P phosphorylation of vesicles via a direct action on the renal cortical cell rather than as a consequence of extrarenal actions of the hormone.     

The basolateral membrane of rat enterocyte: its purification from brush border contamination

Basolateral membranes obtained by self-orienting Percoll-gradient centrifugation were treated with 5 mM CaCl2 to minimize the cross-contamination by brush border membranes. From marker enzyme-specific activities it was calculated that in this preparation the basolateral/brush border membrane ratio was 22.6. A low L-glucose permeability across basolateral membrane vesicles together with ATP-dependent sodium uptake was observed.     

Possible role of calcium mediators in parathyroid hormone action on phosphate transport in rabbit renal brush border membrane

The possibility of the involvement of intracellular calcium in the action of parathyroid hormone on phosphate transport in renal brush border membrane was examined. Preincubation of rabbit renal proximal tubules with parathyroid hormone or 8-bromo-cAMP induced a significant inhibition on phosphate uptake by the brush border membrane vesicles isolated therefrom. The addition of intracellular Ca antagonists, trifluoperazine or W-7, to the preincubation medium, alone was without effect on phosphate uptake by the brush border membrane vesicles, but abolished the inhibitory effects of parathyroid hormone and 8-bromo-cAMP.     

Heterogeneity of brush-border-membrane vesicles from rat small intestine prepared by a precipitation method using Mg/EGTA

Brush border membrane vesicles from rat small intestine were isolated by a Mg/EGTA precipitation method. Further fractionation either by free flow electrophoresis or by sucrose density gradient centrifugation leads to subfractions which differ with respect to enzyme enrichment factors, transport properties for D-glucose and protein pattern analyzed by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. A relative enrichment of (Na+ + K+)-ATPase is found in one fraction, whereas in another fraction maltase, aminopeptidase M and alkaline phosphatase are relatively enriched. The fractions show different properties of D-glucose transport under tracer exchange conditions and a different inhibition of D-glucose transport by phlorizin and phloretin. These results indicate that the vesicles obtained from rat small intestine by this cation precipitation method are not homogeneous. The inhomogeneity cannot be due to a crosscontamination by membranes other than from the cell envelopment, as none of the fractions show a significant enrichment of succinate--cytochrome c oxidoreductase, KCN-resistant NADH oxidoreductase or glucosaminidase. The inhomogeneity might be due either to a crosscontamination by basal-lateral membranes or to membranes derived from epithelial cells not yet fully differentiated.     

A high yield preparation for rat kidney brush border membranes. Different behaviour of lysosomal markers

Rat kidney cortex slices were homogenized with a polytron in a isoosmotic medium containing 5 mmol/l EGTA. By two precipitations with MgCl2 (12 mmol/l) and differential centrifugation, brush border membranes were purified. The brush border marker enzymes alkaline phosphatase and aminopeptidase M were found to be enriched 17.0 +/- 5.3-fold and 16.7 +/- 3.7-fold, respectively. By this method, a high yield of brush border membranes was obtained (48.3 +/- 7.9% for alkaline phosphatase; 47.0 +/- 9.5% for aminopeptidase M). The acid phosphatase was enriched 5-fold, whereas other lysosomal enzymes (glucosaminidase, glucuronidase, cathepsin D) were enriched only 0.2-fold. Acid phosphatase activity could not be washed out, but could be separated from alkaline phosphatase and leucine aminopeptidase by means of free flow electrophoresis and sucrose density gradient centrifugation. Vesicles prepared by the presently described Mg/EGTA-method show better transport properties, compared to vesicles prepared by the calcium method of Evers et al. (Evers, C., Haase, W., Murer, H. and Kinne, R. (1978) Membrane Biochem. 1, 203-219), whereas by SDS-polyacrylamide gel electrophoresis, no differences in the protein patterns were observed.     

Analysis of the pinocytic process in rat kidney II. Biochemical composition of pinocytic vesicles compared to brush border microvilli,lysosomes and basolateral plasma membranes

Pinocytic vesicles, brush border microvilli, lysosomes and basolateral plasma membranes were isolated from rat kidney cortex and their biochemical composition and membrane turnover compared. Pinocytic vesicles are devoid of marker enzymes of brush border microvilli, such as alkaline phosphatase and 5′-nucleotidase, and of lysosomes, such as acid phosphatase and β-glucuronidase. The protein pattern as revealed by polyacrylamide gel electrophoresis differs for all four membranes. Analysis of the phospholipid composition shows that pinocytic vesicles are rich in the negatively charged phospholipid phosphatidylserine and have a low content of sphingomyelin and phosphatidylethanolamine.[¹⁴C]guanido-arginine, [³H]fucose and $\text{myo-}\text{[}{}^3\text{H]inositol}$ were preferentially incorporated into the pinocytic vesicles. Using a double label technique with leucine also, evidence of a more rapid turnover of the pinocytic vesicle membrane proteins was obtained.The results suggest that pinocytic vesicles are not derived from the brush border microvillous membrane but are independent entities that are newly synthesized during the pinocytic process.     

Cholesterol-transfer protein located in the intestinal brush-border membrane. Partial purification and characterization

Cholesterol absorption by small intestinal brush border membrane vesicles from taurocholate mixed micelles is a second-order reaction. From a comparison of reaction rates and order before and after proteinase K treatment of brush-border membrane vesicles, it is concluded that cholesterol absorption is protein-mediated. It is shown that the desorption of cholesterol from taurocholate mixed micelles is by a factor of about 10(4) faster than that from egg phosphatidylcholine bilayers. When brush border membrane vesicles are stored at room temperature, intrinsic proteinases are activated and proteins are liberated from the brush border membrane. These proteins collected in the supernatant catalyze cholesterol and phosphatidylcholine exchange between two populations of small unilamellar phospholipid vesicles. One of the active proteins present in the supernatant is purified by a two-step procedure involving gel filtration on Sephadex G-75 SF and affinity chromatography on a Nucleosil-phosphatidylcholine column. The protein thus obtained is pure by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. It has an apparent molecular weight of slightly less than 14,000 as determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis and a value of 11,500 determined by gel filtration on Sephadex G-75 SF.     

Neither barium nor calcium prevents the inhibition by Bacillus thuringiensis δ-endotoxin of sodium- or potassium gradient-dependent amino acid accumulation by tobacco hornworm midgut brush border membrane vesicles

Rapid filtration assays were used to determine the effects of barium, calcium and an insecticidal δ-endotoxin from Bacillus thuringiensis on sodium and potassium ion gradient dependent phenylalanine accumulation by brush border membrane vescles from the larval midgut of the tobacco hornworm (Manduca sexta). Neither barium nor calcium had a significant effect on sodium ion gradient dependent phenylalanine accumulation by the membrane vesicles. Both barium and calcium inhibited potassium ion gradient dependent phenylalanine accumulation by the membrane vesicles. B. thuringiensis δ-endotoxin inhibited both sodium and potassium ion gradient dependent phenylalanine accumulation by the vesicles. Inhibition of both sodium and potassium ion gradient dependent phenylalanine accumulation increased similarly with increasing δ-endotoxin inhibition of either sodium or potassium dependent phenylalanine accumulation by the vesicles.     

Sucrase-isomaltase: a stalked intrinsic protein of the brush border membrane

The isolation and purification of sucrase-isomaltase from brush border membrane is described and the physicochemical properties of the pure enzyme are discussed. Our present understanding of the mode of association of the intrinsic membrane protein sucrase-isomaltase with the brush border membrane will be the central point of this contribution. The assembly of sucrase-isomaltase into phospholipid bilayers has been reported to result in a model membrane system which resembles the "native" brush border membrane as regards the mode of lipid-protein interaction. The physicochemical properties of this reconstituted model membrane will be compared to the in vivo situation as represented by brush border membrane vesicles routinely isolated from small intestinal brush borders. The biosynthetic mechanism will be discussed.     

Proton transport and Na+/H+ exchange in vesicles isolated from sockeye salmon (Oncorhynchus nerka) kidneys during migration from salt to fresh water.

Renal epithelial function, proton flux and sodium stimulated proton flux, was observed in vesicles isolated from the brush border of the proximal tubule of Sockeye Salmon (Oncorhynchus nerka) during migration. Brush border membrane vesicles (BBMV) were isolated from the body kidney of Sockeye Salmon using aggregation/differential centrifugation techniques. Vesicle purity was tested using a series of epithelial and basal lateral markers including alkaline phosphatase, maltase, gamma-glutamyl transferase (GGTP), Mg(2+)-activated ATP-ase, Na(+)+K(+)-activated ATPase, and 5'-nucleotidase and the lysosomal marker acid phosphatase. An enrichment/depletion factor for each marker was determined by comparison of purified BBMV with kidney homogenate. Vesicles exhibit an enrichment factor for alkaline phosphatase, GGTP, maltase, Mg(2+)-activated ATP-ase, Na(+)+K(+)-activated ATPase, and 5'-nucleotidase. A depletion factor was observed for acid phosphatase. Vesicle integrity was tested by measuring the time course of proton flux in the presence of a pH gradient. Amiloride sensitive sodium stimulated proton flux was observed in these vesicles. The presence of sodium caused a saturable increase in the rate of proton flux, indicating the activity of a sodium/proton antiport protein in BBMV.     

Isolation and reconstitution of the intestinal Na+/glucose cotransporter

The intestinal Na+/glucose cotransporter was isolated from brush border membrane vesicles using a three-step procedure and Na(+)-dependent phlorizin binding as the measure of cotransporter enrichment. The initial step was to treat the Ca2(+)-precipitated brush border membrane vesicles with 0.02% sodium dodecyl sulfate (SDS) followed by sucrose gradient centrifugation which resulted in a 5-fold enrichment of the Na+/glucose cotransporter. The second step was chromatofocusing chromatography over the pH range from pH 7.4 to pH 4.0. This step resulted in an additional 20-fold purification as compared with the SDS-brush border membrane vesicle protein which served as the starting material. The final step was affinity chromatography on con A-Sepharose which resulted in a 5-fold enrichment of the chromatofocused protein. The glycoprotein fraction from the concanavalin A column reconstituted into phosphatidyl choline: cholesterol liposomes demonstrated Na(+)-dependent, phlorizin-sensitive, and osmotic strength-sensitive glucose uptake. This fraction consisted of a single 75-kDa polypeptide on SDS-polyacrylamide gel electrophoresis upon staining with silver. On the basis of these criteria it appears that a protocol for the isolation of the Na+/glucose cotransporter has been developed.     

Identification and purification of a renal amiloride-binding protein with properties of the Na+-H+ exchanger

The aim of this study was to identify and purify the Na+-H+ exchanger from rabbit renal brush border membranes by use of affinity chromatography. Triton-solubilized membranes were equilibrated with an affinity matrix consisting of the amiloride analogue A35 (5-N-(3-aminophenyl)amiloride) covalently coupled to Sepharose CL-4B beads through a triglycine spacer arm. The matrix was then washed extensively with buffer and sequentially eluted with buffer, buffer containing 5 mM amiloride, and 1% sodium dodecyl sulfate (SDS). Eluates were concentrated and subjected to SDS-polyacrylamide gel electrophoresis. The silver-stained gel revealed a 25-kDa protein that was not visible in the initial solubilized brush border membrane extract, was not eluted from the affinity matrix by buffer alone, but was eluted with 5 mM amiloride. A subsequent elution with 1% SDS did not release any more of the 25-kDa protein, indicating that it had been completely eluted from the affinity matrix by amiloride. The presence of 5 mM amiloride during equilibration of the solubilized brush border extract with the affinity matrix completely blocked adsorption of the 25-kDa protein. The relative abundance of this protein correlated closely with Na+-H+ exchange activity when preparations of cortical brush border membrane vesicles, outer medullary brush border membrane vesicles, and cortical basolateral membrane vesicles were compared. Moreover, binding of the protein to the affinity matrix was inhibited by amiloride and amiloride analogues with a rank order identical to that for inhibition of Na+-H+ exchange activity. These findings strongly suggest that the 25-kDa protein is a structural component of the Na+-H+ exchanger.     

Glycine transport by intestinal brush border vesicles of the amphibian Discoglossus pictus.

1. In order to determine the different components of glycine uptake by the intestine of the frog, Discoglossus pictus, we have used brush border membrane vesicles isolated by a classical precipitation technique. 2. Enzymatic tests showed that a good purification was obtained. The concentration ratio of alkaline phosphatase was 14.8. 3. Glycine entry in vesicles as a function of time, in presence or absence of sodium, indicated an overshoot which decreased when incubation time was prolonged. The overshoot was dependent on the presence of sodium. 4. The nature of the anion associated to sodium had little effect on glycine uptake. Nevertheless, chloride and thiocyanate appeared more efficient than glutarate. 5. The effect of transmembrane potential was studied by using valinomycin associated with a potassium gradient. The addition of this substance stimulated glycine transport by 43%. 6. The transport at different glycine concentrations showed two components: one non-saturable with weak affinity and the other saturable with strong affinity (Kt = 0.338 mM). 7. In conclusion, glycine transport by the brush border of D. pictus intestine presents a saturable component depending on sodium and on transmembrane electrical potential.     

Amino acid uptake by isolated renal brush border membrane vesicles in various buffers

The uptake of amino acids by isolated rat renal brush border membrane vesicles in a modified Krebs-Ringer bicarbonate buffer and a phosphate buffer was compared to the uptake in the standard membrane vesicle buffer, Tris-Hepes-mannitol. The uptake in the modified Krebs-Ringer bicarbonate buffer was similar to that in the Tris-Hepes-mannitol buffer. Removal of the ionic constituents other than NaCl and NaHCO3 in the modified Krebs-Ringer bicarbonate buffer (KCl, CaCl2, KH2PO4 and MgSO4) did not affect the amino acid uptake by the isolated membrane vesicles. The timed uptake of proline under sodium gradient conditions in a phosphate buffer had a markedly dampened overshoot. Kinetic analysis of the initial rate of proline uptake in a phosphate buffer compared to a Tris-Herpes-mannitol buffer showed two entry systems for proline in each buffer with similar Km values, but the maximal rate of transport (V) for each system in the phosphate buffer was much lower than that in the Tris-Hepes-mannitol buffer. From these data, phosphate buffer does not appear to be a suitable medium for the study of amino acid uptake by isolated brush border membrane vesicles.     

Inhibition of ileal brush-border chloride conductance by specific antibody

Summary Antibody raised in mice was used in attempting to identify proteins responsible for the conductive chloride transport that can be measured in porcine ileal brush border membrane vesicles. Ileal brush-border membrane vesicle protein from pig was separated into five different molecular mass fractions by preparative SDS polyacrylamide disc gel electrophoresis. Separated protein fractions were used to immunize mice. Antibody was screened for reactivity with antigen by Western blotting, and for effects on conductive chloride transport in ileal brush border membrane vesicles. Immunization with brush-border protein from fraction I proteins (>110 kDa) produced polyclonal antisera which specifically inhibited the conductive component of chloride uptake by ileal brush border vesicle preparations. Western blotting of the antigen showed the presence of several protein species of molecular mass >100 kDa that were recognized by immune serum. Spleen cells from a mouse producing antiserum that inhibited conductive chloride transport were fused with a myeloma cell line. The resulting hybridoma colonies produced antibody that reacted with at least seven distinct protein bands by Western blot assay and inhibited chloride conductance in brush-border membrane vesicles.