Ubiquinone,nonheme iron,and flavins in the renal brush border plasma membranes

The specific levels of ubiquinone, nonheme iron, and flavins have been estimated in renal brush border membrane preparations. In all cases, the levels were clearly lower than those of kidney mitochondria, on the basis of both protein and cytochrome content. These results suggest that kidney mitochondria and brush border membranes differ in the composition of their electron transfer systems.     

Cyclic adenosine monophosphate-dependent and -independent protein kinase activity of renal brush border membranes.

Kinase(s) in brush border membranes, isolated from rabbit renal proximal tubules, phosphorylated proteins intrinsic to the membrane and exogenous proteins. cAMP stimulated phosphorylation of histone; phosphorylation of protamine was cAMP independent. cAMP-dependent increases in phosphorylation of endogenous membrane protein were small, but highly reproducible. Most of the ³²P incorporated into membranes represented phosphorylation of serine residues, with phosphorylthreonine comprising a minor component. cAMP did not alter the electrophoretic pattern of ³²P-labeled membrane polypeptides. The small cAMP-dependent phosphorylation of brush border membrane proteins was not due to membrane phosphodiesterase or adenylate cyclase activities. Considerable cAMP was found “endogenously” bound to the membranes as prepared. However, this did not result in preactivation of the kinase since activity was not inhibited by a heat-stable protein inhibitor of cAMP-dependent protein kinases. With intrinsic membrane protein as phosphate acceptor, the relationship between rate of phosphorylation and ATP concentration appeared to follow Michaelis-Menton kinetics. With histone the relationship was complex. cAMP did not affect the apparent K_m for histone. One-half maximal stimulation of the rate of histone phosphorylation was obtained with 7 × 10^?8m cAMP. The K_a values for dibutyryl cAMP, cIMP, and cGMP were one to two orders of magnitude greater. Treatment of brush border membranes with detergent greatly increased the dependency of histone phosphorylation on cAMP. Phosphorylations of intrinsic membrane protein and histone were nonlinear with time, due in part to the lability of the protein kinase, the hydrolysis of ATP, and minimally to the presence of phosphoprotein phosphatase in the border membrane. The membrane phosphoprotein phosphatase was unaffected by cyclic nucleotides. Protein kinase activity was also found in cytosolic and crude particulate fractions of the renal cortex. Activity was enriched in the brush border membrane relative to that in the crude membrane preparation. The kinase activities in the different loci were distinct both in relative activities toward different substrates and in responsiveness to cAMP.     

Solubilization of ligand-stabilized vasopressin receptors from plasma membranes of bovine kidney and rat liver

The solubilization of vasopressin receptors from plasma membranes of bovine kidney and rat liver by different detergents was investigated. A prerequisite for the extraction of vasopressin receptors retaining binding affinity for their ligand was the stabilization of the receptors by the prior formation of the membrane-bound hormone-receptor complexes. The vasopressin-receptor complexes from both kidney and liver membranes were solubilized in a high yield with dodecyl-beta-D-maltoside and 3-laurylamido-N,N'-dimethylpropylaminoxide. Several other nonionic detergents including octyl-beta-D-glucopyranoside effectively extracted the hepatic vasopressin receptor. For the hormone-receptor complex solubilized from bovine kidney with dodecyl-beta-D-maltoside, a Stokes' radius of 5.8 nm was determined.     

The effects of cell proliferation on the lipid composition and fluidity of hepatocyte plasma membranes.

The fluorescence probe, 1,6-diphenyl-1,3,5-hexatriene, has been used to investigate the effects of controlled and uncontrolled growth on the dynamic properties of the lipid regions of hepatocyte plasma membranes. DPH was incubated with plasma membranes derived from quiescent and regenerating liver and Morris hepatoma 7777, and the resulting systems were studied by fluorescence polarization spectroscopy. Membranes from the rapidly growing hepatoma exhibited a significantly lower fluorescence polarization than observed in quiescent liver, suggesting the presence of a more fluid membrane lipid domain. Membranes from regenerating liver exhibited a time-dependent increase in membrane fluidity, reaching a maximum 12 h after growth stimulation. A close correspondence between membrane fluidity and the cholesterol-phospholipid ratio was also observed where a decrease in this ratio resulted in a more fluid lipid matrix. These results suggest that cell cycling, as observed in regenerating liver and Morris hepatoma 7777, results in significant increases in membrane fluidity, a property which may play an important regulatory role in various cell functions.     

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.     

Calcium and chlorpromazine interactions in rat synaptic plasma membranes. A spin-label and fluorescence probe study.

The effects of calcium and of the psychoactive drug chlorpromazine (CPZ) on the rat synaptic plasma membrane have been studied using two stearic nitroxide spin labels having their doxyl groups in positions 5 and 16 and the fluorescent probe 1-anilinonaphtalene-8-sulfonate (ANS). The mobility of the 5-doxyl stearic spin label which probes the membrane phospholipids in the vicinity of their polar heads is decreased in the presence of both compounds. Calcium is more efficient in this respect than CPZ. In spite of this qualitative similarity of action, CPZ inhibits the effect of calcium and vice versa. No modification of the 16-doxyl stearic spectrum has been observed even at high calcium or CPZ concentrations. An increase in fluorescence intensity and a blue shift in the emission wavelength of ANS-probed membranes are observed with very low CPZ concentrations (10^?7 to 10^?5m). With higher concentrations, a further intensity increase and a further blue shift are due to direct interaction between ANS and CPZ. Calcium also increases the fluorescence intensity of ANS-labeled membranes in the concentration range 10^?5–10^?2m. As for the spin-label data, the effects of both compounds are mutually competitive. It is concluded that calcium interacts principally with the phospholipid polar heads of this type of membrane. However, the competition with CPZ suggests indirectly that this ion is also bound to membrane proteins. CPZ has an affinity for membrane lipids only at high concentrations. In its pharmacologically active concentration range, it is located preferentially on the membrane proteins.     

Amino acid transport in kidney epithelial cell line (MDCK): characteristics of Na+/amino acid symport in membrane vesicles and basolateral localization in cell monolayers

Na+-stimulated amino acid transport was investigated in MDCK kidney epithelial cell monolayers and in isolated membrane vesicles. When transport polarity was assessed in confluent polarized epithelial cell monolayers cultured on Nucleopore filters and mounted between two lucite chambers, Na+-stimulated transport of 2-(methylamino)isobutyric acid (MeAIB), a substrate specific for the A system, was predominantly localized on the basolateral membrane. Na+-stimulated amino acid transport activity was maximal in subconfluent cultures, and was substantially reduced after confluence. A membrane vesicle preparation was isolated from confluent MDCK cell cultures which was enriched in Na+-stimulated MeAIB transport activity and Na+,K+,ATPase activity, a basolateral marker, but was not enriched in apical marker enzyme activities or significantly contaminated by mitochondria. Na+-coupled amino acid transport activity assayed in vesicles exhibited a marked dependence on external pH, with an optimum at pH 7.4. The pattern of competitive interactions among neutral amino acids was characteristic of A system transport. Na+-coupled MeAIB and AIB transport in vesicles was electrogenic, stimulated by creation of an interior-negative membrane potential. The Na+ dependence of amino acid transport in vesicles suggested a Na+ symport mechanism with a 1:1 stoichiometry between Na+ and amino acid.     

Absorption filtration. A tool for the measurement of ion tracer flux in native membranes and reconstituted lipid vesicles

A rapid, simple and reproducible method has been developed for the measurement of ion tracer flux with both native membrane vesicles and reconstituted lipid vesicle systems. Following the absorption of vesicles onto glass fiber filters, tracer flux is performed directly upon the deposited samples. In contrast to the more conventional vacuum and gel filtration techniques, absorption filtration exhibits comprehensive data retrieval whereby the removal of extravesicular ions, the retention of intravesicular ions and the amount of ions fluxed can be accurately analyzed. Both influx and efflux assays have been designed to measure the carbamylcholine-induced flux of ²²Na⁺ which is characteristic of acetylcholine receptor-enriched membranes from Torpedo californica electroplax. The flux signal-to-background noise ratio is maximized in the efflux assay, since agonist activation is performed subsequent to the exhaustive removal of extravesicular tracer. An interesting feature of the influx assay is that the agonist-induced uptake of ²²Na⁺ can be repeated with the original vesicles which additionally maximizes the flux signal. With either approach, the inactivation of ionophoric activity due to prolonged exposure to agonists (‘desensitization’) can be reversed upon removal of agonist without dilution of the deposited samples. Due to the large array of glass fiber filters and ion-exchange disks, the absorption filtration technique should be able to accommodate the transport and binding of soluble molecules to a variety of intact cells, membranes and reconstituted lipid vesicles.     

Effect of bovine growth hormone on rat liver plasma membranes as studied by circular dichroism and fluorescence using the extrinsic probe 7,12-dimethylbenzanthracene

Conformational changes produced by in vitro bovine growth hormone addition to plasma membranes of hypophysectomized rat liver proteins and lipids have been studied by circular dichroism as well as intrinsic and extrinsic fluorescence. 7,12-Dimethylbenzanthracene has been used as a fluorescent probe of changes in membrane structure. The exposure of membranes to bovine growth hormone produced a change in membrane negative ellipticity. Dimethylbenzanthracene at concentrations similar to those employed in fluorescence studies had no effect on the membrane circular dichroism spectrum. Its presence did, however, prevent a response to growth hormone. There was a decrease in peak fluorescence intensity and a peak shift when bovine growth hormone (0.5 · 10^?12 M) was added to liver membranes. The addition of dimethylbenzanthracene (1.6 · 10^?6 M) to membranes resulted in a decrease in the intensity of the protein fluorescence peak at 335 nm and the appearance of two peaks at 430 and 407 nm, assignable to the probe. The addition of bovine growth hormone (0.5 · 10^?12 M) produced a decrease in fluorescence at 335 nm and also in the peaks at 407 and 430 nm. These data are consistent with the conclusion that bovine growth hormone produces a conformational change in rat liver plasma membrane proteins and lipids.     

Rat intestinal brush border membrane dipeptidyl-aminopeptidase IV: kinetic properties and substrate specificities of the purified enzyme

The kinetic properties and substrate specificities of dipeptidyl-aminopeptidase IV (EC 3.4.14.—) detergent-solubilized and purified from the brush border membrane of rat small intestinal mucosal cells were investigated. Kinetic analysis of purified dipeptidyl-aminopeptidase IV was carried out with a variety of oligopeptides and β-napthylamide derivatives as substrates. In general, peptides with proline penultimate to the amino terminus (XPro, X= amino acid) are more favored substrates while those with alanine (XAla) are hydrolyzed at a slower rate. There is some activity toward substrates having leucine at both the penultimate position and amino terminus (LeuLeu). The activity of the purified enzyme toward GlylProβ-napthylamide derivative is maximal at pH 8.4 in Tris-HCl buffer, with an activation energy of 7.98 kcal/mol. There is no requirement for metal ion. The ability of various dipeptides to inhibit Gly-l-Pro-β-napthylamide derivative hydrolysis was used to determine the binding specificity of the enzyme for the amino-terminal amino acid. These data show that a free amino acid group is necessary for enzymatic activity and increased hydrophobicity of the amino acid at the amino terminus enhances binding.     

A rat kidney neutral peptidase that degrades B chain of insulin, glucagon, and ACTH: purification by affinity chromatography and some properties.

A metallo-endopeptidase that catalyzes at near neutral pH the hydrolysis of certain polypeptides was purified from rat kidney microsomes by a simplified procedure using affinity chromatography on Sepharose 4B coupled with insulin B chain. The purified enzyme showed a single component by chromatography on diethylaminoethyl cellulose and by gel filtration on a Sephadex G-200 column. The native enzyme has a molecular weight of approximately 213,000. Studies on its substrate specificity showed that the purified enzyme rapidly degrades insulin B chain, glucagon, adrenocorticotropin, and, at a significantly lower rate, insulin A chain. The enzyme has a very weak or no activity toward ribonuclease and vasopressin. In contrast, the enzyme does not degrade denatured hemoglobin, bovine serum albumin, insulin (nano- or micromolar), oxytocin, furylacryloylglycyl-leucine amide (FAGLA), synthetic substrates of cathepsin C (β-napthalamides of glycine-l-arginine and l-histidine-l-serine), or synthetic substrates of aminopeptidases (l-arginine- or l-glutamic acid-β-napthylamide). The enzyme degrades reduced or oxidized B chain at about the same rate, but S-sulfonated B chain is degraded at a markedly lower rate. The effect of several potential activators and inhibitors on the enzyme's activity was investigated. Activity of the enzyme is markedly inhibited by chelating agents (EDTA and o-phenanthroline) and, modestly, by high concentrations of citrate and histidine. Activity of the enzyme is also markedly inhibited by simple thiol compounds (dithiothreitol, glutathione, and mercaptoethanol), but not by sulfhydryl reagents (N-ethylmaleimide or iodoacetate). The inactive apoenzyme, prepared by treatment of the enzyme with EDTA followed by dialysis, was reactivated by Zn²⁺ > Ca²⁺, minimally by Cu²⁺, but not by Hg²⁺. Some anions (phosphate, borate, and bicarbonate) were strongly inhibitory, but chloride had no effect. The following agents were found to have no effect: soybean and lima bean trypsin inhibitors, N^?-tosyl-l-phenylalanine chloromethyl ketone (TPCK), N^α,?-tosyl-l-lysine chloromethyl ketone (TLCK), aprotinin (Trasylol), phenylmethylsulfonyl fluoride (a serine protease inhibitor), 1-methyl histidine, 3-methyl histidine, histamine, imidazole, and heparin.     

Cytochrome c interaction with membranes. II. Comparative study of the interaction of c cytochromes with the mitochondrial membrane

A comparative study of the interaction of various cytochromes c with phospholipid vesicles and with mitochondrial membranes was undertaken. Both mammalian and yeast types of cytochrome c bind preferentially in the oxidized form as evidenced by the midpoint redox potential (E_m 7.0) becoming more negative upon binding. Cytochrome c which is reincorporated into cytochrome c-depleted mitochondria is kinetically comparable with the native cytochrome c component; rate of cytochrome b oxidation is maximally restored at ratios of c₁:c:a of 1:1:1. Comparison between the electron paramagnetic spectrum of cytochrome c labeled at methionine 65 or cysteine 103 reveals that upon binding to the mitochondrial membrane, the former is immobilized and not the latter. This result suggests that cytochrome c binds to the membrane at the side at which methionine 65 is located.     

Biochemical and immunochemical characterization of two simian virus 40 (SV40)-specific glycoproteins in nuclear and surface membranes of SV40-transformed cells.

Plasma membranes of several simian virus 40-transformed cells contain virus-specific proteins with molecular masses of ～ 100,000D and ～ 60,000D and isoelectric points of ～ 4.7 and ～ 4.5, respectively. Triton X-100 extracts of purified nuclei from simian virus 40-transformed hamster lymphocytes contain the same proteins but in different proportions, the high molecular mass component being enriched six-fold in terms of the lower molecular mass one. Both proteins can be labeled metabolically with [¹⁴C]glucosamine and their isoelectric points altered by neuraminidase treatment, showing that they are sialoglycoproteins.     

Enhancement and inhibition of enzymes of heme metabolism by diethyl maleate in the rat kidney

The acylation of sn-glycerol 3-phosphate with palmityl-CoA was compared in mitochondria and microsomes isolated from rat liver. Polymyxin B, an antibiotic known to alter bacterial membrane structure, stimulated the mitochondrial glycerophosphate acyltransferase but inhibited the microsomal enzyme. When mitochondrial and microsomal fractions were incubated at 4–6 °C for up to 4 h, the mitochondrial enzyme remained virtually unchanged while the microsomal enzyme lost about one-half of its activity. Incubations at higher temperatures also revealed that the mitochondrial enzyme was comparatively more stable under the conditions employed. The mitochondrial acyltransferase showed no sensitivity to bromelain, papain, Pronase, and trypsin, all of which strongly inhibited the microsomal enzyme. The differential sensitivity to trypsin was observed in mitochondria and microsomes isolated from other rat organs. However, the liver mitochondrial glycerophosphate acyltransferase was inhibited by trypsin in the presence of either 0.05% deoxycholate or 0.1% Triton X-100. The trypsin sensitivity of the mitochondrial glycerophosphate acyltransferase in the presence of detergent was not due to the presence, in the mitochondrial fraction, of a trypsin inhibitor which became inactivated by Triton X-100 or deoxycholate. The results suggest that the catalytic site of mitochondrial glycerophosphate acyltransferase is not exposed to the cytosolic side and it is located in the inner aspect of the outer membrane.     

Identification of proapoa-I in rat lymph and plasma: metabolic conversion to "mature" apoA-I

Rat apoA-I polymorphism has been analyzed in lymph and plasma. Two major proteins were present and their relative distribution was different in lymph and plasma lipoproteins. The basic protein (pI 5.60) was quantitatively most abundant among plasma lipoproteins and the acidic protein (pI 5.50) was predominant in lymph chylomicrons and lipoproteins. Microsequence amino acid analysis of the two proteins isolated by preparative isoelectrofocusing revealed that pI 5.50 apoA-I was proapoA-I with six additional amino acids (H2N-Ser-Glu-Phe-Trp-Gln-Gln) at the N-terminal end of "mature" apoA-I (pI 5.60 apoA-I). When radioiodinated proapoA-I was injected in rats, a conversion to "mature" apoA-I was observed and the process reached 92% completion in six hours. These data demonstrate the origin of apoA-I polymorphism in vivo.     

Difference in the sugar chains of two subunits and of isozymic forms of rat kidney gamma-glutamyltranspeptidase

A comparative study by gel-permeation chromatographic analysis of oligosaccharides released from the heavy and the light subunits of rat kidney gamma-glutamyltranspeptidase has revealed that high-mannose-type sugar chains are found only in the heavy subunit, and the nonsialylated and nonfucosylated biantennary complex-type sugar chains are included only in the light subunit. By the same analysis of the oligosaccharide fractions obtained from four isozymic forms of rat kidney gamma-glutamyltranspeptidase, it was found that all these enzymes contain 2 mol of neutral sugar chains but different numbers of acidic sugar chains. The total numbers of sialic acid residues showed a reciprocal relationship to the isoelectric point of each isozymic form, and an increase of 1 mol of sialic acid residue corresponds to a decrease of 0.5 in the value of the isoelectric point.     

Development of the rat salivary glands. II. The identification of a trypsinlike protease in the submaxillary gland

Trypsinlike protease activity at pH 9.2 was measured in tissue extracts of adult rat salivary glands by using a fluorometric assay in which β-naphthylamine is released by the hydrolysis of benzylarginine β-naphthylamide. The submaxillary gland contains high levels of this activity, and the parotid and sublingual glands have a maximum of 2000-fold and 200-fold less. After polyacrylamide disc gel electrophoresis at pH 8.3, the protease activity of submaxillary extracts is associated with a major protein band. Neither this protein band nor its protease activity is detectable in extracts of parotid or sublingual glands. Homogenates of newborn submaxillary gland do not have this protease activity at detectable levels, suggesting that its major accumulation is postnatal.     

The role of mononuclear phagocytes in cardiac allograft rejection in the rat: II. Characterization of mononuclear phagocytes extracted from rat cardiac allografts

A method was developed for the extraction of leukocytes infiltrating rat cardiac allografts. Mononuclear phagocytes (MNP) comprised 52.4 ± 5.5% of the cells extracted from allografts at the time of rejection (Day 7). Day 4 allografts and Day 7 syngeneic grafts yielded considerably fewer MNP although numbers of lymphoid cells were similar in all three groups. Allograft MNP were phagocytic for latex particles but only very low numbers were adherent to a variety of surfaces. About 50% were positive for attachment and internalization of opsonized sheep red cells via the Fc receptor. However, fewer cells were able to internalize sheep red cells than were able to bind them when complement receptor-mediated phagocytosis was investigated. Large amounts of plasminogen activator were secreted by allograft MNP while cells from syngeneic grafts produced very little. The possible participation of MNP in the effector phase of a mechanism for allograft rejection similar to delayed-type hypersensitivity is discussed.