Sugar hydrolases of the infant rat intestine and their arrangement on the brush border membrane

Lactase and maltase, the predominant sugar hydrolases associated with the intestinal brush border membrane of the suckling rat, were purified essentially free of the other to near homogeneity (lactase at specific activity 23, maltase at specific activity 58), and their specific physicochemical properties determined. Antisera prepared to each showed by immunodiffusion a single common precipitin line with pure enzyme and solubilized proteins of the brush border membrane. Brush border membranes were purified 26–35-fold from infant rat intestine. Membranes prepared from 10-day-old rats contained 32% protein, 43% lipid and 25% carbohydrate with lactase and maltase estimated to comprise in excess of 10% and 2%, respectively, of the membrane protein.Immunotitration curves of lactase and maltase showed equivalent antibody binding by the membrane-bound and free enzyme forms. Furthermore, antibody binding to one enzyme did not affect the immunotitration curve or the extractability (by papain or Triton X-100) of the other membrane-bound enzyme. It was concluded that the lactase and maltase molecules are attached singly on the external membrane surface in a spatially independent manner with their antigenic sites as freely available to antibody binding as exhibited by their papain-solubilized counterparts.     

Sugar hydrolases and their arrangement on the rat intestinal microvillus membrane

Summary The arrangement of the sugar hydrolases, sucrase-isomaltase, maltase, and lactase on the microvillus membrane of rat intestine was investigated by immunological technique. The enzymes were purified essentially free of each other to near homogeneity and antisera of high specificity were obtained against each. Microvillus membranes were prepared routinely in high purity from rat intestine and contained an average 61% protein, 20% lipid, and 19% carbohydrate, with the sugar hydrolases comprising an estimated 20–25% of the membrane protein. The immunoreactivity of membrane-bound sucrase-isomaltase, maltase, and lactase was investigated with antisera demonstrating specific reactivity to each, when tested in the presence of other membrane extractives. The membrane-bound enzymes were found in each case to combine with antibody in amounts equivalent to that required to effect precipitation of comparable units of the free enzymes from solution. Preloading membrane vesicles with antibodies to any two of the enzymes did not affect either the immunoreactivity or extractability (by papain or Triton X-100) of the third.The antibody-binding studies indicated an arrangement of these enzymes independent of each other on the membrane surface, in a manner allowing each to maintain a high degree of molecular freedom.     

Fluorescein-methotrexate transport in brush border membrane vesicles from rat small intestine

The transport characteristics of fluorescein-methotrexate (F-MTX) in isolated brush border membrane vesicles (BBMVs) from rat small intestine were studied. F-MTX uptake in BBMVs was measured by a rapid filtration technique. Our results demonstrated that F-MTX uptake into vesicles was 1) significantly increased under the experimental conditions of an outwardly directed OH(-) gradient or an inwardly directed H(+)gradient, 2) sensitive to temperature, 3) increased with decreasing pH of the incubation buffer, 4) significantly inhibited by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS) at the early stage of the uptake, and 5) significantly inhibited by methotrexate (MTX). Thus, the transport of F-MTX in BBMVs was shown to be mediated in part by the reduced folate transporter (RFC) which was known to transport MTX through the epithelium of small intestine.     

Electrofocusing of hydrolases in rat brush border enterocytes]

Different hydrolases (cellobiase, enterokinase, lactase, leucine aminopeptidase, alcaline phosphatase and trehalase) of the brush border's enterocytes of the rat have been studied by electrofocusing. Every hydrolase is focused in a single peak, the pI of which is given.     

Simultaneous isolation of brush border and basolateral membrane from rabbit enterocytes. Presence of brush border hydrolases in the basolateral membrane of rabbit enterocytes

By a slight modification of the procedure described by Gratecos et al. (Gratecos, D., Knibiehler, M., Benoit, V. and Sémériva, M. (1978) Biochim. Biophys. Acta 512, 508–524), the basolateral and brush border membranes of rabbit enterocytes have been purified concomitantly from the same aliquot of mucosa. The two types of membrane have been obtained with the same yield (15%) and enrichment of specific markers (18-fold).The presence in the basolateral membrane of hydrolases known to be specific of the brush border membrane has been confirmed by using immunological techniques.     

Cytochromes in the rat kidney brush border membrane.

Spectrophotometric studies of the brush border membrane fraction of the rat kidney as compared with those of its mitochondria and microsomes were carried out. Occurrence of cytochromes has been demonstrated in the brush border membranes. Either in the brush border membranes and in the mitochondria evidence for the presence of cytochromes of the types $\text{a}\text{,}\text{b}$ and $\text{c}$ was found, whereas in the microsomes only cytochrome $\text{b}$ was demonstrated.     

A retinyl ester hydrolase activity intrinsic to the brush border membrane of rat small intestine.

Retinol esterified with long-chain fatty acids is a common dietary source of vitamin A. Hydrolysis of these esters in the lumen of the small intestine is required prior to absorption. Bile salt-stimulated retinyl esterase activity was present with purified rat intestinal brush border membrane, with the maximum rate of ester hydrolysis at approximately pH 8, the physiological luminal pH. Taurocholate, a trihydroxy bile salt, stimulated hydrolysis of short-chain fatty acyl retinyl esters more than hydrolysis of long-chain fatty acyl esters. Deoxycholate, a dihydroxy bile salt, primarily stimulated hydrolysis of long-chain esters. Calculated Kms of 0.74 microM for retinyl palmitate (16:0) hydrolysis and 9.6 microM for retinyl caproate (6:0) hydrolysis suggested the presence of two separate activities. Consistent with that, the activity responsible for retinyl caproate hydrolysis could be inactivated to a greater degree than retinyl palmitate hydrolysis by preincubation of the brush border membrane at 37 degrees C for extended times. Brush border membrane from animals who had undergone common duct ligation 48 h prior to tissue collection showed little ability to hydrolyze retinyl caproate but retained 70% of retinyl palmitate hydrolytic activity, compared to sham-operated controls. Thus, two distinguishable retinyl esterase activities were recovered with purified brush border membranes. One apparently originated from the pancreas, was stimulated by trihydroxy bile salts, and preferentially hydrolyzed short-chain retinyl esters, properties similar to cholesterol ester hydrolase, known to bind to the brush border. The other was intrinsic to the brush border, stimulated by both trihydroxy and dihydroxy bile salts, and preferentially hydrolyzed long-chain retinyl esters, providing the majority of activity of the brush border against dietary retinyl esters.     

Effect of cisplatin on brush border membrane enzymes and anti-oxidant system of rat intestine

Cisplatin (CP) is a widely used antineoplastic agent which exhibits gastrointestinal toxicity. The present work was done to study the effect of administration of CP on brush border membrane (BBM) enzymes and anti-oxidant system of rat intestine. Male Wistar rats were given a single intraperitoneal dose of CP (6 mg/kg body weight) and then sacrificed 1, 3, 5 and 7 days after this treatment. Control animals were given saline only. The administration of CP led to significant decline in the specific activities of BBM enzymes both in the mucosal homogenates and isolated membrane vesicles. Kinetic studies showed that the V(max) of the enzymes was decreased in BBM vesicles from CP treated rats while the K(m) remained unchanged. The activities of catalase, Cu-Zn superoxide dismutase, glucose 6-phosphate dehydrogenase and glutathione reductase decreased while the activities of glutathione S-transferase and thioredoxin reductase increased in CP treated animals compared to the control group. Lipid peroxidation and total sulfhydryl groups were also altered upon CP treatment indicating the generation of oxidative stress. The maximum changes in all the parameters studied above were 3 days after administration of CP and then recovery took place on days 5 and 7. Thus, the administration of CP leads to significant alterations in the activities of BBM enzymes and the anti-oxidant status of rat intestine.     

Transport of selenate and selenite across the brush border membrane of rat and sheep small intestine

Mucosal uptake of⁷⁵Se-labeled selenate and selenite across the brush border was investigated in sheep and rat small intestine, using 3-min mucosal exposures. Uptake of selenate and selenite occurred faster in rat than in sheep small intestine. With the exception of sheep duodenum, mucosal selenate uptake was Na⁺-dependent in sheep and rat small intestine. Mucosal uptake of selenite across the brush border was Na⁺-dependent only in sheep midjejunum, whereas it was Na⁺-independent in sheep duodenum and ileum and the rat whole small intestine. Various anions inhibited selenate transport in the presence of Na⁺ in sheep midjejunum in the order S₂O₂ ^2- = CrO₄ ^2- > MoO₄ ^2- and in rat ileum in the order CrO₄ ^2- = S₂O₃ ^2- > SC₄ ^2- > MoO₄ ^2-. Thiosulfate also inhibited mucosal selenite uptake in the presence of Na⁺ in sheep midjejunum. Preincubation of rat ileum with glutathione (GSH) enhanced mucosal selenite uptake, whereas selenate uptake remained unaffected. These results indicate that selenate transport across the brush border membrane is energized in part by the Na⁺-gradient. Moreover, the Na⁺-dependent transport mechanism for the Se salts apparently has an affinity for other anions (S₂O₃ ^2-, SO₄ ^2-, CrO₄ ^2-, MOo₄ ^2-). The findings further indicate that intracellular GSH plays a role in the absorption of selenite, probably by an increase of intracellular selenite metabolism. The Na⁺-independent mucosal uptake of selenate and selenite probably represents diffusion.     

Comparison of brush border membrane glycoproteins and glycoenzymes in the proximal and distal rat small intestine

Brush border membranes isolated from the proximal and distal portions of the rat small intestine were examined to see whether qualitative differences exist in their glycoprotein constituents. After SDS-polyacrylamide gel electrophoresis distinct differences were observed, indicating that the protein and glycoprotein profiles of the distal intestine are less complex. A competitive radioassay of lectin receptors revealed that there are significantly more wheat germ agglutinin and succinylated wheat germ agglutinin receptors present on brush border membranes from proximal intestine as compared to distal intestine. However, binding of Ricinus communis agglutinin I to brush border membranes of distal intestine was 2-times higher than that of proximal intestine. These segmental differences were also reflected in the binding patterns of individual brush border membrane hydrolases to wheat germ agglutinin and R. communis agglutinin I. Carbohydrate analysis demonstrated that the overall sugar content of brush border membranes is higher in distal intestine, with more galactose and sialic acid residues. No difference was found in the content of N-acetylglucosamine between the two segments. When brush border membranes from both segments were used as acceptors for galactosyltransferase, those from proximal intestine were better acceptors. Neuraminidase treatment significantly enhanced galactose oxidase/sodium borotritide labeling of brush border membranes from distal intestine and altered the electrophoretic mobility of dipeptidyl aminopeptidase IV and aminopeptidase N. No significant changes in labeling or enzyme electrophoretic mobility were noted in brush border membranes from proximal intestine after neuraminidase treatment. These studies indicate that the glycoproteins from brush border membranes of proximal and distal intestine are qualitatively different and that the glycoproteins from distal intestine may have more completed oligosaccharide side chains.     

Chronic cold stress-induced alterations in brush border membrane composition and enzyme activities in rat intestine

The effect of chronic cold stress on the composition and function of rat intestinal brush border membrane (BBM) was studied. Various lipid fractions from intestinal BBM viz. cholesterol (p < 0.01), phospholipids (p < 0.01), triglycerides (p < 0.05) and gangliosides (p < 0.05) were significantly reduced in cold stressed animals, as compared to controls. Analysis of membrane saccharide content revealed a significant increase in sialic acid (25%) and hexosamine (36%) contents and a reduction in fucose (19%) content in cold stressed rats. Determination of various enzyme activities in BBM showed significantly enhanced activities of alkaline phosphatase ( p < 0.01), lactase ( p < 0.001) and leucine aminopeptidase ( p < 0.001), whereas sucrase activity was reduced ( p < 0.05) under these conditions. The magnitude and site of these alterations across the crypt-villus axis varied from enzyme to enzyme. These findings suggest that chronic cold stress results in profound alterations in intestinal BBM. Altered structure and function of intestinal BBM may play a role in stress-induced derangements in gastrointestinal tract.     

Intracellular transport and conformational maturation of intestinal brush border hydrolases.

Brush border hydrolases of the differentiated intestinal cell line Caco-2 are transported to the microvillar membrane at different rates. This asynchronism is due to at least two rate-limiting events, a pre- and an intra-Golgi step. The retardation of sucrase-isomaltase, a slowly migrating hydrolase, versus dipeptidylpeptidase IV, a rapidly transported enzyme, is neither due to differential trimming of N-linked carbohydrates nor due to oligomerization. In this study, the conformational maturation of biosynthetically labeled sucrase-isomaltase and dipeptidylpeptidase IV was probed by conformation-specific antibodies and proteases. These assays enabled us to correlate the conformational maturation of the two enzymes with their rates of transport. Furthermore, two naturally occurring mutants of sucrase-isomaltase with impaired intracellular transport displayed an immature conformation. It is proposed that differential kinetics of folding might be the underlying cause for both the pre- and the intra-Golgi steps of asynchronous intracellular transport. Furthermore, a proper tertiary structure might be a prerequisite for sucrase-isomaltase to leave the Golgi apparatus.     

Isolation and characterization of brush border membrane vesicles from pig small intestine

1. Brush border membrane vesicles (BBMV) were isolated from swine mid-intestine by a MgCl2 precipitation and sucrose density gradient centrifugation. 2. Transport of D-glucose and L-alanine were Na+-stimulated and into an osmotically sensitive space. 3. Estimates of kinetic parameters for Na+-dependent D-glucose transport were: apparent Kt = 1.8 mM and Jmax = 16.8 nmol/mg protein/min. 4. Results of experiments with the delta pH sensitive fluorescent probe 9-aminoacridine indicated independent mechanisms for Na+-dependent glucose transport and Na+/H+ exchange. 5. This study demonstrates that pig BBMV provide a useful model for investigating intestinal membrane transport.     

Osmotic water permeabilities of brush border and basolateral membrane vesicles from rat renal cortex and small intestine

Summary The osmotic water permeabilityP _f of brush border (BBM) and basolateral (BLM) membrane vesicles from rat small intestine and renal cortex was studied by means of stopped-flow spectrophotometry. Scattered light intensity was used to follow vesicular volume changes upon osmotic perturbation with hypertonic mannitol solutions. A theoretical analysis of the relationship of scattered light intensity and vesicular volume justified a simple exponential approximation of the change in scattered light intensity. The rate constants extracted from fits to an exponential function were proportional to the final medium osmolarity as predicted by theory. For intestinal membranes, computer analysis of optical responses fitted well with a single-exponential treatment. For renal membranes a double-exponential treatment was needed, implying two distinct vesicle populations.P _f values for BBM and BLM preparations of small intestine were equal and amount to 60 m/sec. For renal preparations,P _f values amount to 600 m/sec for the fast component, BBM as well as BLM, and to 50 (BBM) and 99 (BLM) m/sec for the slow component. The apparent activation energy for water permeation in intestinal membranes was 13.3±0.6 and in renal membranes, 1.0±0.3 kCal/mole, between 25 and 35°C. The mercurial sulfhydryl reagentpCMBS inhibited completely and reversibly the highP _f value in renal brush border preparations. These observations suggest that in intestinal membranes water moves through the lipid matrix but that in renal plasma membranes water channels may be involved. From the highP _f values of renal membrane vesicles a transcellular water permeability for proximal tubules can be calculated which amounts to 1 cm/sec. This value allows for an entirely transcellular route for water flow during volume reabsorption.     

Intestinal surface peptide hydrolases: identification and characterization of three enzymes from rat brush border.

Peptide hydrolases were solubilized from rat small intestinal brush border by papain and separated by Sephadex G-200 chromatography, velocity gradient ultracentrifugation and polyacrylamide disc electrophoresis and designated according to approximate molecular size from sedimentation studies. Peptidases I (apparent Mr 230 000) and II (apparent Mr 160 000) are oligopeptidases with maximum specificity for tripeptides with identical pH optima (7.5) and similar apparent Km with L-Leu-Gly (I, 0.60 MM; II, 0.76 mM). L-Leucyl-beta-naphthylamide is a competitive inhibitor of both enzymes. Concentration of peptidase II produced partial conversion to peptidase I on polyacrylamide disc electrophoresis. The third peptide hydrolase (III, Mr 120 000) is a dipeptidase with pH optimum 8.5 and apparent Km for L-Leu-Gly of 0.65 mM. These peptide hydrolases were inhibited appreciably (37-59%) by 0.2 M glycine/NaOH, Tris - HCl or Tris - glycine buffers. EDTA (5 mM) completely inhibited these enzymes but all activity was restored by dialysis against buffer without divalent ions. Subsequent addition of Mg2+, Mn2+, Co2+ or Zn2+ (1-2 mM) inhibited peptidases I and II variably (4-81%) depending upon the substrate and buffer used. In contrast peptidase III was activated slightly by metal ions (5-20%). These peptide hydrolases are strategically located at the intestinal lumen-cell interface and possess biochemical characteristics making them ideally suited to play a pivotal role in the final stage of protein digestion.     

Uptake of selenite,selenomethionine and selenate by brush border membrane vesicles isolated from rat small intestine

The uptake of selenite, selenate and selenomethionine (SeMet) was performed with brush border membrane vesicles (BBMV) prepared from rats fed selenium-deficient and supplemented diets. At equilibrium (60 min), the uptake of ⁷⁵Se from [⁷⁵Se]selenite ranged from 16.5 to 18.9 nmol mg^-1 protein. There was a curvilinear relationship in the uptake of selenite over a concentration range of 10–1000 m. About 2 nmol mg^-1 protein was obtained with selenomethionine (SeMet) which occurred between 90 and 180 s. In contrast to selenite, there was a linear relationship in the initial uptake of SeMet over a concentration range of 10–1000 m. The uptake of selenate was approximately 50-fold lower than selenite, reaching 350 pmol mg^-1 protein. Dietary selenium level had no effect on the rate of ⁷⁵Se accumulation by BBMV. Dramatic differences are found in the uptake and binding of selenium by BBMV incubated with different selenocompounds.