Sexual difference and organ specificity of the effect of estradiol on carbonic anhydrase and Mg(2+)-HCO3(-)-ATPase activities isolated from duodenal mucosa and kidney cortex of male and female rats: preliminary study with crude enzyme samples.

Effects of the s.c. administration of various doses of estradiol propionate (E.P.; 25-500 micrograms/kg) on the activities of carbonic anhydrase (CA), Mg(2+)-dependent ATPase and Mg(2+)-dependent, HCO3(-)-stimulated ATPase (Mg(2+)-HCO3(-)-ATPase) in rat duodenal mucosa and kidney cortex, and on body weight, organ weight and serum concentrations of testosterone and estradiol-17 beta, were examined in adult male, female, testectomized and ovariectomized rats. In normal male rats, activities of cytosol CA and brush border Mg(2+)-HCO3(-)-ATPase in the kidney were increased in a dose-dependent manner and reached 1.6- and 2-fold of controls, respectively, after consecutive administration (daily for 7 days) of 500 micrograms E.P. with no changes in either enzyme activities in duodenal mucosa. The positive correlations (P less than 0.01) were observed by linear regression analysis between serum concentration of estradiol-17 beta and kidney cytosol CA or kidney brush border Mg(2+)-HCO3(-)-ATPase activities. In normal female rats, activities of cytosol CA and brush border Mg(2+)-HCO3(-)-ATPase in the duodenal mucosa, and brush border Mg(2+)-HCO3(-)-ATPase activity in the kidney were increased by E.P. administration (100 and 500 micrograms/kg, daily for 7 days), however, kidney cytosol CA activity did not change by any dosage. Behavior of a part of both enzymes to E.P. in testectomized rats was altered almost in the same way to that observed in normal female rats and vice versa in ovariectomized rats. Body weight was decreased, in general, by consecutive administration of E.P. in a dose-dependent manner, and kidney weight was increased by E.P. in both male and female rats.     

Further studies on the effect of aldosterone on Mg2+-HCO3(-)-ATPase and carbonic anhydrase from rat intestinal mucosa

The main purpose of this study is to elucidate the effect of adrenocorticoids on Mg2+-HCO3(-)-ATPase and carbonic anhydrase which are thought to be related to anion transport in mammalian intestinal mucosa and renal tubulus. Rat duodenal mucosa, large intestinal mucosa and kidney cortex were excised and homogenized with mannitol-Tris buffer (pH 7.1) and brush border fraction and cytosol were obtained by a differential fractionation procedure. Brush border Mg2+-HCO3(-)-ATPase and cytosol carbonic anhydrase activities in the duodenal mucosa decreased to 70% and 37% of normal values, respectively 5-11 days after adrenalectomy. Adrenalectomy also decreased significantly both enzyme activities in large intestinal mucosa; on the other hand, renal enzyme activities did not change. Four hours after a single injection of 20-80 micrograms/kg of aldosterone, ip, to adrenalectomized rats, Mg2+-HCO3(-)-ATPase and carbonic anhydrase activities in duodenal mucosa increased gradually to normal or near normal in dose-dependent fashion. Both enzyme activities in large intestinal mucosa were also increased by a larger dose of aldosterone. Again, renal enzyme activities were not affected by any dose of aldosterone. In contrast, corticosterone (1 mg and 4 mg/kg) and dexamethasone (50 micrograms 200 micrograms/kg) had no replacement effect on enzyme activities in all organs. These results showed that the mineralocorticoid, but not glucocorticoids, is a regulator of the enzyme activity of Mg2+-HCO3(-)-ATPase and carbonic anhydrase from intestinal mucosa. The true mechanisms by which both enzymes are activated by aldosterone are not clear at present.     

19-hydroxyandrostenedione does not modulate [3H]aldosterone binding to human mononuclear leucocytes and rat renal cytosol

To verify the aldosterone amplifying action of 19-hydroxyandrostenedione (19-OH-AD), we investigated [3H]aldosterone and [3H]19-OH-AD binding to type I (mineralocorticoid) receptor in the renal cytosol of adrenalectomized and ovariectomized rat, and human mononuclear leucocytes (MNL). In the [3H]aldosterone binding study, the cytosol was incubated with [3H]aldosterone and 200-fold RU28362 (11 beta,17 beta-dihydroxy-6-methyl,17 alpha-(1-propynyl)-androsta-1,4,6- trien-3-one), a pure glucocorticoid, with or without 19-OH-AD. Scatchard plots of [3H]aldosterone binding to cytosol with 0.2 or 20 nM 19-OH-AD or without 19-OH-AD were linear. Dissociation constants (Kd) and maximum bindings (Bmax) without 19-OH-AD, and with 0.2 and 20 nM 19-OH-AD were: 0.71 +/- 0.03 nM and 23.0 +/- 3.4 fmol/mg protein (mean +/- SD, n = 3), 0.72 +/- 0.05 nM and 23.1 +/- 2.3 fmol/mg protein (n = 3), and 0.77 +/- 0.04 nM and 22.9 +/- 4.8 fmol/mg protein (n = 3), respectively. 19-OH-AD did not significantly change the Kd and Bmax of [3H]aldosterone binding. A high concentration of 19-OH-AD slightly displaced 0.2 or 5 nM [3H]aldosterone bound to cytosol. In human MNL, Scatchard plots of [3H]aldosterone binding with both 0.2 and 20 nM 19-OH-AD and without 19-OH-AD were linear. Kd and Bmax were, respectively, 1.00 nM and 780 sites/cell in the absence of 19-OH-AD, and 1.07 nM and 774 sites/cell in the presence of 0.2 nM 19-OH-AD. Without 19-OH-AD they were, respectively, 0.95 nM and 551 sites/cell, and 1.10 nM and 560 sites/cell with 20 nM 19-OH-AD. A high concentration of 19-OH-AD slightly displaced 0.2 or 5 nM of [3H]aldosterone bound to MNL. In both tissues, there was no obvious specific binding of [3H]19-OH-AD within the range of 1-60 nM. The above results suggest that the amplifying effect of 19-OH-AD on aldosterone mineralocorticoid action may not occur at the binding site of aldosterone to type I receptor, and that 19-OH-AD itself may not have any direct or indirect mineralocorticoid actions on the steroid receptor-mediated process in the rat kidney and human MNL.     

Effect of aldosterone antagonists on aldosterone-induced activation of Mg2+ -HCO3- -ATPase and carbonic anhydrase in rat intestinal mucosa

In previous studies, Mg2+ -dependent, HCO3- -activated ATPase in the brush border and carbonic anhydrase in the cytoplasm of rat duodenal and jejunal mucosa decreased after adrenalectomy. Both enzyme activities increased to near normal levels 4 h after i.p. injection of aldosterone (40 micrograms/kg). These results suggest the possibility that both enzymes in the small intestinal mucosa may be mediators of the action of aldosterone. In the present studies, therefore, the effects of actinomycin D (500 micrograms/kg, i.p.), spironolactone (50 mg/kg, s.c.) and potassium canrenoate (50 mg/kg, s.c.) on aldosterone-induced activation of both enzymes in the upper small intestinal mucosa from adrenalectomized rats were examined to clarify the mechanism of action of aldosterone in enzyme levels. Actinomycin D inhibited carbonic anhydrase activity in small intestinal mucosa from normal rats 4 h after i.p. injection but had no effect on ATPase activity, while two other drugs had no effect on either enzyme activity in normal rats up to 4 h later. Pretreatment with these 3 drugs 1 h before aldosterone administration (40 micrograms/kg, i.p.) to adrenalectomized rats blocked the aldosterone-induced activation of ATPase and carbonic anhydrase in the upper small intestine. On the other hand, adrenalectomy and administration of aldosterone and its antagonists, alone or in combination, had no effect on kidney enzyme activities. These results confirm that Mg2+ -HCO3- -ATPase and carbonic anhydrase are mediators of the action of aldosterone in the upper small intestinal mucosa.     

Brush border Mg2+-HCO-3-ATPase, supernatant carbonic anhydrase and other enzyme activities isolated from rat intestinal mucosa: effect of adrenalectomy and aldosterone administration

The possible role of Mg2+-HCO3-ATPase, carbonic anhydrase and several other enzymes in rat intestinal mucosa as mediators of the action of aldosterone has been examined. The small-intestinal tract was cut into seven segments, 15 cm each in length and the mucosa was scraped off, homogenized in 50 mM D-mannitol-2 mM Tris-HCl buffer (pH 7.1), differentially fractionated and a crude brush border was obtained. The mucosa from the colon and rectum was combined and used as the large-intestinal sample. Five days after the adrenalectomy, activities of brush border Mg2+-HCO3-ATPase and supernatant carbonic anhydrase from the upper small intestine decreased to about 60 and 40% of normal values, respectively. Activities of Na+-K+-ATPase, beta-glycerophosphatase and succinate dehydrogenase were all decreased. Two and 4 h after i.p. injection of aldosterone (40 micrograms/kg) to adrenalectomized rats, all enzyme activities increased except for Na+-K+-ATPase in the upper small intestine. In contrast, Mg2+-HCO-3-ATPase and carbonic anhydrase activities were unchanged 3 h after i.p. injection of dexamethasone (200 micrograms and 1 mg/kg). The activation of both Mg2+-HCO3-ATPase and carbonic anhydrase by a single injection of aldosterone was blocked by pretreatment with cycloheximide (1 mg/kg). These results suggest that aldosterone may induce the synthesis of enzyme proteins in the intestinal mucosa.     

应激大鼠肾胞液[^3H]醛固酮结合活性的变化及调节机制的初步研究

为探讨烫伤引起病理性应激时大鼠肾胞液醛固酮结合活性的变化及可能的调节机制,以[～3H]-醛固酮为配体,用放射性配基-受体结合分析法测定了正常对照组、轻度烫伤组和重度烫伤组大鼠肾胞液醛固酮结合活性的结合容量(Rt)和表观解离常数(Kd);采用体内注射TNF-α、IL-1β中和抗体和α-促黑色素细胞刺激激素(α-melanocyte-stimulatinghormone,α-MSH)和合成肽KPV(Ac-D-Lys-L-Pro-D-Val)等措施调节其改变.结果发现,肾胞液存在两种不同结合容量、不同亲和力的醛固酮结合活性受体.与正常对照组的Rt(Rt141.6±7.2fmol/mgpro;Rt2317.6±70.0fmol/mgpro)相比,轻烫组的Rt(Rt141.4±5.0fmol/mgpro;Rt2314.8±45.7fmol/mgpro)无显著差异(P>0.05;P>0.05);重烫组的Rt(Rt122.4±5.4fmol/mgpro;Rt2196.3±32.5fmol/mgpro)则显著下降(P<0.01;P<0.01).体内注射TNF-α与IL-1β中和抗体、α-MSH及KPV均能明显提高重烫组Rt值.结果提示,重度烫伤大鼠肾胞浆醛固酮结合活性降低,TNF-α、IL-1β中和抗体、α-MSH及KPV均可防止重度烫伤引起病理性应激时醛固酮结合活性降低.     

Is there a plasma-membrane-located anion-sensitive ATPase? II. Further studies on rabbit kidney.

A study has been made to determine whether renal plasma membranes contain an HCO3 stimulated, ouabain insensitive Mg ATPase. Purified mitochondrial, microsomal and brush border membrane fractions have been isolated from rabbit kidney. The microsomal anion-sensitive ATPase activity appears to be entirely of mitochondrial origin on the basis of the effects of inhibitors of mitochondrial Mg ATPase. The brush border membrane fraction is contaminated with mitochondrial fragments and contains an Mg ATPase activity with low anion-sensitivity. Further purification of this fraction causes parallel decreases in anion-sensitivity of the Mg ATPase activity and in cytochrome c oxidase activity. These results indicate that conclusions previously reached by other investigators for a role of anion-sensitive Mg ATPase in the bicarbonate reabsorption of the proximal tubule may no longer be tenable.     

Effect of pH and different substrates on the electrokinetic properties of (Na+, K+)-ATPase vesicles

Some biophysical properties of a (Na+, K+)-ATPase preparation from guinea-pig kidney have been analysed. The recently developed technique of laser Doppler spectroscopy was applied to measure particle mobility under electrophoretic conditions. The following results were obtained: 1. magnesium ions at pH 7.3 decrease the mobility of the ATPase containing vesicles by binding to negatively charged surface groups. At pH 3.3 the competitive binding of protons causes a shift of the mobility vs. [Mg2+] curve to higher values of [Mg2+], 2. binding of ATP at pH 7.3 (Kd = 0.9 X 10(-4) M for (mM 1 NaCl, 0.2 KCl, 0.1 MgCl2, 0.1 Tris) was measured as an increase in particle mobility depending also on [Mg2+]. At pH 3.3 also unspecific ATP-binding occurred, 3. ITP and GTP had the same Kd value as ATP; ADP a slightly lower one (Kd = 1.2 X 10(-4) M). Tris-H3PO4 (Kd = 2.6 X 10(-4) M) was also able to increase particle mobility, but only at higher concentrations and not to the same extent as ATP; AMP induced only very small changes, 4. from the mobility-pH curve an isoelectric point of 4.1 is derived (buffer: 1 mM NaCl, 0.2 mM KCl, 0.1 mM MgCl2, 0.1 mM Tris). In the presence of 0.9 mM ATP the isoelectric point is shifted to 3.2. As the electrophoretic mobility is directly proportional to the net charge of the vesicles, the results may be interpreted as changes in surface charge density, originating from both a conformational change of the ATPase polypeptide and a decrease in vesicle size.     

Is there a plasma-membrane-located anion-sensitive ATPase? II. Further studies on rabbit kidney

A study has been made to determine whether renal plasma membranes contain an HCO₃^? stimulated, ouabain insensitive Mg ATPase. Purified mitochondrial, microsomal and brush border membrane fractions have been isolated from rabbit kidney.The microsomal anion-sensitive ATPase activity appears to be entirely of mitochondrial origin on the basis of the effects of inhibitors of mitochondrial Mg ATPase.The brush border membrane fraction is contaminated with mitochondrial fragments and contains an Mg ATPase activity with low anion-sensitivity. Further purification of this fraction causes parallel decreases in anion-sensitivity of the Mg ATPase activity and in cytochrome $\text{c}$ oxidase activity.These results indicate that conclusions previously reached by other investigators for a role of anion-sensitive Mg ATPase in the bicarbonate reabsorption of the proximal tubule may no longer be tenable.     

ZK91587: a novel synthetic antimineralocorticoid displays high affinity for corticosterone (type I) receptors in the rat hippocampus

In vitro cytosol binding assays have shown the properties of binding of a novel steroid, ZK91587 (15 beta, 16 beta-methylene-mexrenone) in the brain of rats. Scatchard and Woolf analyses of the binding data reveal the binding of [3H] ZK91587 to the total hippocampal corticosteroid receptor sites with high affinity (Kd 1.9 nM), and low capacity (Bmax 17.3 fmol/mg protein). When 100-fold excess RU28362 was included simultaneously with [3H] ZK91587, the labelled steroid binds with the same affinity (Kd 1.8 nM) and capacity (Bmax 15.5 fmol/mg protein). Relative binding affinities (RBA) of various steroids for the Type I or Type II corticosteroid receptor in these animals are: Type I: ZK91587 = corticosterone (B) greater than cortisol (F); Type II: B greater than F much greater than ZK91587. In the binding kinetic study, ZK91587 has a high association rate of binding in the rat (20.0 x 10(7) M-1 min-1). The steroid dissociates following a one slope pattern (t 1/2 30 h), indicating, the present data demonstrate that in the rat hippocampus, ZK91587 binds specifically to the Type I (corticosterone-preferring/mineralocorticoid-like) receptor.     

Methyl isobutyl amiloride: a new probe to assess the number of Na-H antiporters

We measured the binding of [3H]-5-(N-methyl-N-isobutyl) amiloride (MIA) to purified rabbit renal brush border membranes. MIA binding was protein, temperature and time dependent with optimal binding at pH 8.0 or above. At low pH MIA binding was inhibited, suggesting competition between H+ ions and MIA for the MIA binding site. There was 70-80% specific binding which reached a plateau at 30 min and remained stable thereafter for 150 min. Scatchard analysis revealed one family of binding sites with Bmax of 3.4 +/- 0.4 pmoles/mg protein and Kd of 30.5 +/- 2.3 nM. MIA inhibited the Vmax of the Na-H antiporter (assessed by acridine orange quenching) in a dose dependent fashion with 100% inhibition at MIA concentration of 10(-3) M and this inhibition was greater than that of amiloride. We conclude that MIA, a potent inhibitor of the Na-H antiporter, displays a high percentage of specific binding to renal brush border membranes and can be used to assess the number of the Na-H antiporters.     

Interaction of nucleotides and cations with the (Ca2+, Mg2+)-ATPase of sarcoplasmic reticulum as determined by fluorescence changes of bound 1-anilino-8-naphthalenesulfonate

The changes in fluorescence of 1-anilino-8-naphthalenesulfonate (ANS-) have been used to determine binding of ligands to the (Ca2+, Mg2+)-ATPase of sarcoplasmic reticulum vesicles, isolated from rabbit skeletal muscle. ANS- binds to sarcoplasmic reticulum membranes with an apparent Kd of 3.8 X 10(-5) M. The binding of ANS- had no effect on Ca2+ transport or Ca2+-dependent ATPase activity. EGTA, by binding endogenous Ca2+, increased the fluorescence intensity of bound ANS- by 10-12%. Subsequent addition of ATP, ADP, or Ca2+, in the presence or absence of Mg2+, reversed this change of fluorescence. The binding parameters, as determined by these decreases in fluorescence intensity, were as follows: for ATP, Kd = 1.0 X 10(-5) M, nH = 0.80; for ADP, Kd = 1.2 X 10(-5) M, nH = 0.89; and for Ca2+, Kd = 3.4 X 10(-7) M, nH = 1.8. The binding parameters for ITP and for the nonhydrolyzable analogue, adenyl-5'-yl-beta, gamma-methylene)diphosphate, were similar to those of ATP, but GDP, IDP, CDP, AMP, and cAMP had lower apparent affinities. Millimolar concentrations of pyrophosphate also decreased the fluorescence of bound ANS-, whereas orthophosphate caused a small (2-3%) increase in fluorescence in Ca2+-free media. Vanadate, in the presence of EGTA, decreased the fluorescence of bound ANS-with half-maximal effect at 4 X 10(-5) M. The changes of fluorescence intensity of bound ANS- appear to reflect conformational changes of the (Ca2+, Mg2+)-ATPase, consequent to ligand binding, with the low and high fluorescence intensity species corresponding to the E1 and E2 conformations, respectively. These appear to reflect similar conformational states of the (Ca2+, Mg2+)-ATPase to those reported by changes in intrinsic tryptophan fluorescence (DuPont, Y. (1976) Biochem, Biophys. Res. Commun. 71, 544-550).     

Aldosterone nuclear receptors in kidneys of chick embryo

We have studied the properties of the nuclear receptors for aldosterone in kidneys of chick embryo. Aliquots of 0.4 M KCl nuclear extracts were incubated with [3H]aldosterone with or without 1 microM RU28362, a potent glucocorticoid analog. Scatchard analyses of binding data revealed two classes of binding sites with Ka of 0.26 and 0.03 X 10(9) M-1 and Nmax of 330 fmol and 620 fmol/mg DNA respectively. In presence of RU28362, however, we observed only a single class of binding sites with a Ka of 1.02 X 10(8) M-1 and a Nmax of 90 fmol/mg DNA. Competition studies performed in presence of RU28362 showed that aldosterone was the more effective competitor followed by corticosterone, progesterone, deoxycorticosterone, dexamethasone, cortisol, triamcinolone acetonide and cortisone. The nuclear complexes had a sedimentation coefficient in the area of 8 S which changed to 4-5 S in the presence of 0.4 M KCl. This effect of KCl was prevented by the addition of 10 mM sodium molybdate. Always in the presence of the glucocorticoid analog, by DEAE-c chromatography we observed a major specific aldosterone-binding fraction which was eluted with 0.2 M KCl. This fraction sedimented at 8.4 S in the absence of sodium molybdate and KCl. In the absence of RU28362, DNA-c columns retained only a small portion of the nuclear complexes which were eluted with KCl. These complexes sedimented, on sucrose gradient, at 4.6 and 3.1 S, whereas those which did not bind to DNA-c had a sedimentation coefficient of 8 S. In the presence of RU28362, the majority of bound [3H]aldosterone remained in the column flow-through fraction; when this fraction was further analyzed on DEAE-c, complexes were eluted with 0.2 and 0.3 M KCl. These data indicate that nuclear receptors for aldosterone are present in small number in kidneys of chick embryo and that they are mostly in the 8 S form.     

Characterization of estrogen binding proteins in mouse liver cytosol: absence of sexual dimorphism

Estrogen binding proteins in mouse liver cytosol were characterized by separation on Sephadex G-75 columns, by Scatchard plot analysis, and by hormonal competition studies. A high affinity receptor (56-70 fmol/mg cytosolic protein) with a mol. wt greater than 75,000, Kd of 5.7-8.4 X 10(-10) M was identified in male and female C3H liver. A second high capacity low affinity (HCLA) binder (200-300 fmol/mg cytosolic protein) with a mol. wt of about 50,000, Kd of 1.7-7.2 X 10(-8) was also identified. Following partial purification of the estrogen binders by ammonium sulfate precipitation, Scatchard plot analysis revealed selective removal of HCLA. On Sephadex G-75 filtration, the purification also resulted in selective removal of the 17 beta-estradiol binding component with a mol. wt of 50,000. Comparison with rat cytosol separations show that the sexual dimorphism in HCLA binding proteins (5 times higher in male than female rat liver) was absent in the mouse liver. These studies document the presence of a specific high affinity estrogen binding protein in mouse liver and indicate that the sexual dimorphism in HCLA proteins is not a universal feature of all rodent species.     

Lithocholate binding by Y and Y' proteins in bovine small intestine.

Cytosolic proteins may play an important role in the intracellular transport of bile acids in enterocytes. The lithocholate binding properties of cytosolic protein from bovine small intestine were studied. Lithocholate binding was observed in the Y (45-50 kDa), Y' (30-35 kDa), and Z fractions (10-15 kDa) following gel filtration of cytosol. A Y protein with glutathione S-transferase activity (46 kDa) was purified by S-octyl-glutathione affinity chromatography and chromatofocusing (eluted at pH 7.5) of the Y fraction. Two Y' bile acid binding proteins with dihydrodiol dehydrogenase activity were partially purified from the Y' fraction by chromatofocusing and hydroxyapatite-HPLC. The lithocholate binding affinity of Y' protein (Kd < 0.35 microM) was higher than that of Y protein (Kd = 2 microM) and was comparable to that of Z protein (Kd = 0.2 microM). The binding affinity of Y protein was higher for bilirubin (Kd = 2.5 microM) than that for BSP (Kd = 200 microM). This was comparable to the binding affinity of bovine hepatic Y protein. These data indicate that Y' and Z proteins participate in the intracellular transport of bile acids from the brush border to the basolateral pole in enterocytes.     

Purification and characterization of a major zinc binding protein from renal brush border membrane of rat.

In spite of the fact that zinc is an essential trace element, mechanisms that contribute to zinc homeostasis in mammals are poorly understood. An attempt has been made to identify and purify zinc binding components from renal brush border membrane (BBM), which could be involved in the binding of zinc and the subsequent translocation across the BBM. A 40 kDa major zinc binding protein has been identified and purified from renal BBM, which showed a dissociation constant (Kd) of 211 microM and maximal binding (Bmax) of 207 nmol/mg protein. 8 g zinc atoms could interact with 1 mol of protein. Specificity of the protein for zinc was checked by metal displacement and UV-absorption assay. It was found that only Cd2+ could displace the zinc bound to the protein. Other metals tested (Cu2+, Mg2+, Ca2+) did not show any interaction with the protein. These data indicated that purified protein is highly specific and has a high affinity for zinc. The carbohydrate content was found to be 7.85 mg% in the purified protein. Immunofluorescence localization of this protein in kidney sections revealed that this major zinc binding protein is exclusively localized in the proximal convoluted tubules. These results suggested that the 40 kDa major zinc binding transmembrane glycoprotein is highly specific for zinc and has a high affinity for zinc.     

Binding of nicotinamide adenine dinucleotide by the renal brush border membrane from rat kidney cortex

The characteristics of nicotinamide adenine dinucleotide (NAD) binding on brush border membranes prepared from rat renal cortex were investigated with the use of radioactively labelled NAD, [adenine-2,8-3H]NAD+, as a ligand. (1) We found that NAD binds on brush border membrane and that the extent of NAD binding is linearly proportional to the brush border membrane protein, and progressively increases with concentration of NAD in the medium. (2) The rate of NAD binding was dependent on temperature. At 20 degrees C, the equilibrium binding was obtained at 15 min, while NAD binding at 0 degree C was slower, but the final level of binding reached at 120 min was similar to that plateau of binding observed at 20 degrees C. Brush border membrane inactivated by heating at 95 degrees C for 3 min did not bind NAD. Binding of NAD on brush border membranes was reversed by simple dilution or by the addition of unlabelled NAD. Both alpha-NAD and beta-NAD stereoisomers displaced bound [3H]NAD. Reduced NAD (NADH) caused less displacement of bound NAD than oxidized NAD+. Adenine, nicotinamide, pyrophosphate, of 5'-AMP did not displace bound NAD. (3) The NAD binding to brush border membranes was nearly saturable, approximating saturation at 10(-4) M NAD. Kinetic analysis by Scatchard plot indicates two sets of NAD binding sites in brush border membranes: a high-affinity binding site (Kd = 1.9 . 10(-5) M) and a low-affinity binding site (Kd = 2.2 . 10(-3) M). (4) Unlike concentrative uptake of D-[14C]glucose by brush border membrane vesicles, binding of NAD was not dependent on the presence of an outside-in sodium gradient [Na+0 greater than Na+i], nor was it abolished by repeated freezing and thawing of brush border membranes. Unlike D-[14C]glucose uptake, NAD binding by brush border membranes did not change upon decrease of intravesicular volume in hypertonic media. These observations indicate that NAD association with brush border membranes is true binding rather than intravesicular uptake of this compound. (5) The presence of specific binding sites in renal brush border membrane capable of binding of NAD with a high degree of affinity suggests that such sites may be involved in previously observed (Kempson, S.A., Colon-Otero, G., Ou, S.L., Turner, S.T. and Dousa, T.P. (1981) J. Clin. Invest. 67, 1347) modulatory effect of NAD on sodium-gradient-dependent uptake of phosphate across luminal brush border membrane of proximal tubules.     

Epidermal growth factor binding, stimulation of phosphorylation, and inhibition of gluconeogenesis in rat proximal tubule

Epidermal growth factor and insulin share many biological activities, including stimulation of cell proliferation, ion flux, glycolysis, fatty acid and glycogen synthesis, and activation of receptor-linked tyrosine kinase activity. In the kidney, insulin has been shown to regulate transport processes and inhibit gluconeogenesis in the proximal tubule. Since the kidney represents a major source of EGF, the present studies investigated whether proximal tubule contained EGF receptors, whether EGF receptors were localized to apical or basolateral membranes, and whether EGF receptor activation participated in the regulation of an important proximal tubule function, gluconeogenesis. Specific EGF receptors were demonstrated in the basolateral membrane of proximal tubule. Following incubation with 125I EGF, basolateral membranes demonstrated equilibrium binding at 4 degrees C and 23 degrees C. There was 78 +/- 2% specific binding (n = 13). The dissociation constant (Kd) was 1.5 x 10(-9) M and maximal binding was 44 fmol/mg protein. There was ninefold more specific binding to proximal tubule basolateral membrane than to brush border membrane. In basolateral, but not brush border membranes, EGF induced phosphorylation of the tyrosine residues of intrinsic membrane proteins, including a 170 kDa protein, corresponding to the EGF receptor. In the presence of the gluconeogenic substrates, alanine, lactate, and succinate, proximal tubule suspensions synthesized glucose. EGF inhibited glucose production in a concentration-dependent manner over a concentration range of 3 x 10(-11) to 3 x 10(-9) M. In addition, EGF inhibited angiotensin II-stimulated glucose production in the proximal tubule suspensions. EGF did not significantly increase net glucose metabolism nor decrease cellular ATP concentrations. Therefore, these studies demonstrated that rat proximal tubule contained specific receptors for EGF that were localized to the basolateral membrane and linked to tyrosine kinase activity. EGF significantly inhibited proximal tubule glucose production without significantly increasing net glucose consumption.     

Photoaffinity labeling by [3H]-N5-methyl-N5-isobutylamiloride of proteins which cofractionate with Na+/H+ antiport activity

N5-Methyl-N5-isobutylamiloride (MIA) is one of a series of 5-N-substituted amiloride analogues which exhibit high affinity and specificity for inhibition of Na+/H+ antiport. Amiloride-sensitive [3H]MIA binding to renal brush border membranes exhibited a Kd of 250 nM and a Bmax of 8.6 pmol/mg of protein. Specific binding was optimal at pH 7.5 and inhibited in the presence of Na+ and Li+. Inhibition by amiloride exhibited biphasic kinetics. After resolution of solubilized membranes by high-pressure liquid chromatography, MIA binding activity cofractionated together with Na+/H+ antiport activity, measured after reconstitution in asolectin vesicles, into a major and a minor peak. When fractions containing the major peak of Na+/H+ antiport activity were incubated with [3H]MIA and then photolyzed with a mercury arc lamp, covalent incorporation of label into polypeptides of apparent molecular mass 81 and 107 kDa was observed. These photolabeled bands were also observed in intact brush border membranes in addition to labeled polypeptides of apparent molecular mass 60 and 46 kDa, respectively. Labeling was inhibited by amiloride, reduced in the presence of Na+, and not observed in the absence of photolysis. These data point to the 81- and 107-kDa polypeptides as candidates for identification as components of a Na+/H+ antiport system in renal brush border membranes.     

Characterization and localization of myosin in the brush border of intestinal epithelial cells

The brush border of intestinal epithelial cells consists of a tightly packed array of microvilli, each of which contains a core of actin filaments. It has been postulated that microvillar movements are mediated by myosin interactions in the terminal web with the basal ends of these actin cores (Mooseker, M.S. 1976. J. Cell. Biol. 71:417-433). We report here that two predictions of this model are correct: (a) The brush border contains myosin, and (b) myosin is located in the terminal web. Myosin is isolated in 70 percent purity by solubilization of Triton-treated brush borders in 0.6 M KI, and separation of the components by gel filtration. Most of the remaining contaminants can be removed by precipitation of the myosin at low ionic strength. This yield is approximately 1 mg of myosin/30 mg of solubilized brush border protein. The molecule consists of three subunits with molecular weights of 200,000, 19,000, and 17,000 daltons in a 1:1:1 M ratio. At low ionic strength, the myosin forms small, bipolar filaments with dimensions of 300 X 11nm, that are similar to filaments seen previously in the terminal web of isolated brush borders. Like that of other vertebrate, nonmuscle myosins, the ATPase activity of isolated brush border myosin in 0.6 M KCI is highest with EDTA (1 μmol P(i)/mg-min; 37 degrees C), intermediate with Ca++ (0.4 μmol P(i)/mg-min), and low with Mg++ (0.01 μmol P(i)/mg-min). Actin does not stimulate the Mg-ATPase activity of the isolated enzyme. Antibodies against the rod fragment of human platelet myosin cross-react by immunodiffusion with brush border myosin. Staining of isolated mouse or chicken brush borders with rhodamine-antimyosin demonstrates that myosin is localized exclusively in the terminal web.