Catalysis of angiotensin I hydrolysis by human angiotensin-converting enzyme: effect of chloride and pH

The catalysis of the hydrolysis of angiotensin I, an important natural substrate, by human angiotensin-converting enzyme (ACE) was examined in detail as a function of chloride and hydrogen ion concentration. Chloride was found to be a nonessential activator over the pH range 5.0-10.0, with the chloride dependence increasing with increasing pH: the velocity enhancement at optimal [Cl-] increased from 1.6- to 42-fold; the chloride optimum and Ka' increased from 20 to 520 mM and from 0.22 to 120 mM, respectively, and activity in the absence of chloride decreased from 60.9 to 2.4% (relative to maximal activation). Kinetic analyses at pH 6.0, 7.5, and 9.0 confirmed the nonessential activator mechanism. At all pH values tested chloride was found to be inhibitory (relative to maximal activation) at supraoptimal chloride levels. Depending on the [Cl-] range, both apparent uncompetitive and competitive modes were demonstrated. From pH 6.0 to 9.0 Kis varied between 110 and 1140 mM (apparent). In all cases Ki' much greater than Ka'. We suggest that at high [Cl-] chloride binds to low-affinity inhibitory sites on the free enzyme and on the ES and EP complexes. The pH-rate profile demonstrated a chloride-dependent alkaline shift, with the pH optimum increasing from 7.1 at zero chloride to 7.6 at 400 mM NaCl. At [S] much greater than Km a plot of log nu vs pH revealed pKs of 5.9 and 9.4 in the ES complex in the absence of chloride, while at maximally activating [Cl-] only one ionization at pK = 6.3 was observed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Haemolysis of various mammalian erythrocytes in sodium chloride, glucose and phosphate-buffer solutions.

Mouse, rat, rabbit, hamster, cow, pig, sheep, guinea-pig, dog and human erythrocytes were studied. A 0.9% or stronger solution of sodium chloride completely prevented haemolysis; sheep and pig erythrocytes appeared the more fragile, while human and dog erythrocytes were not haemolized in concentrations of 0.4% or more. Haemolysis of human, rabbit, cow, hamster, guineapig, pig and sheep erythrocytes was not observed in solutions of 0.4% or more of glucose. Except for sheep, human and dog erythrocytes, haemolysis was depressed in rate but not completely prevented by phosphate-buffer solution of pH 7.0.     

Unusual Behavior of Membrane Somatic Angiotensin-Converting Enzyme in a Reversed Micelle System

Properties of the membrane and soluble forms of somatic angiotensin-converting enzyme (ACE) were studied in the system of hydrated reversed micelles of aerosol OT (AOT) in octane. The membrane enzyme with a hydrophobic peptide anchor was more sensitive to anions and to changes in pH and composition of the medium than the soluble enzyme without anchor. The activity of both forms of the enzyme in the reversed micelles significantly depended on the molarity of the buffer added to the medium (Mes-Tris-buffer, 50 mM NaCl). The maximum activity of the soluble ACE was recorded at buffer concentration of 20-50 mM, whereas the membrane enzyme was most active at 2-10 mM buffer. At buffer concentrations above 20 mM, the rate of hydrolysis of the substrate furylacryloyl-L-phenylalanyl-glycylglycine by both ACE forms was maximal at pH 7.5 both in the reversed micelles and in aqueous solutions. However, at lower concentrations of the buffer (2-10 mM), the membrane enzyme had activity optimum at pH 5.5. Therefore, it is suggested that two conformers of the membrane ACE with differing pH optima for activity and limiting values of catalytic constants should exist in the reversed micelle system with various medium compositions. The data suggest that the activity of the membrane-bound somatic ACE can be regulated by changes in the microenvironment.     

Comparative regional distribution of angiotensin-I-converting enzyme in the rat, rabbit, dog, monkey and human kidneys

Kidney is the main source of the production of renin and angiotensin, while also being one of their main target organs. This study was designed to determine the regional distribution of angiotensin-I-converting enzyme (ACE) in the kidney using a biochemical approach. Interspecies variations were analyzed in human, monkey, rabbit, dog and rat kidneys. Kidney ACE content differed among species with decreasing contents as follows: rabbit greater than human greater than monkey greater than dog greater than rat. In rabbit, human, monkey and dog kidneys, we observed predominant cortical distribution of ACE compared with the medulla or papilla; median cortex/papilla ACE activity ratio was 19, 14, 9 and 7 for the rabbit, human, dog and monkey, respectively. In rat kidney, ACE predominantly distributes in the outer medulla, while cortex ACE content appears to be low. The difference in ACE distribution in the rat kidney and to a lesser extent in the dog kidney when compared to rabbit, monkey or man should be taken into account when extrapolating to the human renal hemodynamic studies, which are frequently performed in rats or dogs.     

Effects of molecular oxygen, oxidation-reduction potential, and antioxidants upon in vitro replication of Treponema pallidum subsp. pallidum.

The effects of various concentrations of dithiothreitol, molecular oxygen, and several antioxidants upon the in vitro replication of Treponema pallidum were studied. The optimal dithiothreitol concentration was between 0.65 and 1.62 mM, and the optimum oxygen concentration was 3.0% +/- 0.5% in both the presence and absence of additional antioxidants. It was discovered that the reduced sulfhydryl concentration and the oxidation-reduction potential of the medium were stabilized after 5 days. The water-soluble antioxidants cobalt chloride, cocarboxylase, mannitol, and histidine were individually tested for their ability to increase treponemal growth in vitro. The optimum concentrations for these antioxidants were 21 nM, 4.3 nM, 0.55 mM, and 0.23 mM, respectively. When combined at these concentrations, the mixture of antioxidants stimulated the in vitro replication of T. pallidum. The number of treponemes in cultures with the antioxidants averaged a 59-fold increase, compared with a 43-fold increase in cultures lacking the antioxidants. It was further demonstrated that histidine and mannitol were the most critical components of this mixture. Catalase and superoxide dismutase were investigated for their ability to promote the growth and maintain viability of T. pallidum in tissue culture. The optimum concentrations for these enzymes were 10,000 U/liter and 25,000 U/liter, respectively. When these enzymes and the above antioxidants were combined and added to a chemically reduced modified Eagle medium, the treponemes increased an average of 70-fold, compared with an average of 35-fold in cultures lacking them. Furthermore, this medium, T. pallidum culture medium, supported the replication of T. pallidum at oxygen concentrations from 5 to 7% with little loss in yield or viability. The lipid-soluble antioxidants vitamin A and vitamin E acetate were also shown to enhance the in vitro growth of T. pallidum in this medium.     

Effects of molecular oxygen, oxidation-reduction potential, and antioxidants upon in vitro replication of Treponema pallidum subsp. pallidum

The effects of various concentrations of dithiothreitol, molecular oxygen, and several antioxidants upon the in vitro replication of Treponema pallidum were studied. The optimal dithiothreitol concentration was between 0.65 and 1.62 mM, and the optimum oxygen concentration was 3.0% +/- 0.5% in both the presence and absence of additional antioxidants. It was discovered that the reduced sulfhydryl concentration and the oxidation-reduction potential of the medium were stabilized after 5 days. The water-soluble antioxidants cobalt chloride, cocarboxylase, mannitol, and histidine were individually tested for their ability to increase treponemal growth in vitro. The optimum concentrations for these antioxidants were 21 nM, 4.3 nM, 0.55 mM, and 0.23 mM, respectively. When combined at these concentrations, the mixture of antioxidants stimulated the in vitro replication of T. pallidum. The number of treponemes in cultures with the antioxidants averaged a 59-fold increase, compared with a 43-fold increase in cultures lacking the antioxidants. It was further demonstrated that histidine and mannitol were the most critical components of this mixture. Catalase and superoxide dismutase were investigated for their ability to promote the growth and maintain viability of T. pallidum in tissue culture. The optimum concentrations for these enzymes were 10,000 U/liter and 25,000 U/liter, respectively. When these enzymes and the above antioxidants were combined and added to a chemically reduced modified Eagle medium, the treponemes increased an average of 70-fold, compared with an average of 35-fold in cultures lacking them. Furthermore, this medium, T. pallidum culture medium, supported the replication of T. pallidum at oxygen concentrations from 5 to 7% with little loss in yield or viability. The lipid-soluble antioxidants vitamin A and vitamin E acetate were also shown to enhance the in vitro growth of T. pallidum in this medium.     

Regulation by cations of adenylate cyclase activity in chicken tissues

The effects of magnesium and sodium ions on adenylate cyclase activity in plasma membranes from chicken heart and eggshell gland mucosa were studied. It was found that the increase in magnesium chloride concentration from 5 to 40 mM results in the stimulation (4.1-fold) of the adenylate cyclase activity. The increase in sodium chloride concentration up to 150 mM stimulated the enzyme activity 2-fold. The stimulation of adenylate cyclase by magnesium and sodium ions was less pronounced in the eggshell gland. GTP did not activate adenylate cyclase. The activating effect of magnesium and sodium ions was accompanied by the attenuation of the enzyme sensitivity to NaF, guanylyl imidodiphosphate and isoproterenol. Activation by guanylyl imidodiphosphate was completely abolished in the presence of 40 mM magnesium chloride. It is assumed that high concentrations of the salt promote subunit dissociation of the adenylate cyclase regulatory protein and its interaction with the catalytic subunit in the presence of endogenous nucleotides. The differences in the adenylate cyclase sensitivity to cations in chicken heart and eggshell gland mucosa correlate with the amount of pertussis toxin substrate.     

Purified angiotensin converting enzyme from Rana esculenta ovary influences ovarian steroidogenesis in vitro

The aim of the present study was to purify and characterize angiotensin-converting enzyme (ACE) present in frog ovary (Rana esculenta). Detergent and trypsin-extracted enzymes were purified using a one-step process, consisting of affinity chromatography on lisinopril coupled to Sepharose 6B. The molecular mass was 150 kDa for both detergent-extracted and trypsin-extracted enzyme. The specific activity of detergent-extracted and trypsin-extracted ACE was 294 U mg(-1) and 326 U mg(-1) respectively. The optimum pH range was from 7-8.5 at 37 degrees C and the optimum temperature was 50 degrees C. Optimum chloride concentration was about 200 mM for synthetic substrate FAPGG (N-[3-(2-furyl)acryloyl] L-phenylalanyl glycyl glycine) and angiotensin I, and 10 mM for bradykinin. The Km and Kcat values for FAPGG were 0.608 +/- 0.07 mM and 249 sec(-1) respectively and I50 values for captopril and lisinopril, two specific ACE inhibitors, were 68 +/- 12.55 nM and 6.763 +/- 0.66 nM respectively. Frog ovary tissue from prereproductive period was incubated in vitro in the presence of frog ovary ACE (2.5 mU/ml), captopril (0.1 mM), and lisinopril (0.1 mM). Production of 17beta-estradiol, progesterone, and prostaglandins E2 and F2alpha was determined. The data showed a modulation of 17beta-estradiol, progesterone and prostaglandin E2 production by ovary ACE.     

Albumins activate peptide hydrolysis by the bifunctional enzyme LTA4 hydrolase/aminopeptidase.

Albumins from several species activated the bifunctional, Zn2+ metalloenzyme amino-peptidase/leukotriene A4 hydrolase (EC 3.3.2.6). Bovine serum albumin, 1 mg/mL, increased hydrolysis of L-proline-p-nitroanilide and leucine-enkephalin by 12-fold and 7-fold, respectively. The apparent Km for L-proline-p-nitroanilide was inversely proportional to the albumin concentration from 0 to 1 mg/mL, declining from 9.4 to 0.7 mM without an appreciable change in apparent Vmax. These data imply a random activation process in which the enzyme-activator complex is catalytically dominant. Hill plots indicated a 1:1 stoichiometric relationship between albumin and enzyme. Secondary plots of slope versus the reciprocal of albumin concentration indicated that it binds to the enzyme with an affinity constant of 0.9 microM. The pH optimum of the nonactivated enzyme occurred at pH 8; the albumin-activated enzyme had an optimum near pH 7. Neither ultrafiltration nor dialysis of albumin altered its activating effect, but boiling abolished it. Albumin did not affect other cytosolic or microsomal leucine aminopeptidases, or gamma-glutamyltransferase. Albumin functions as a nonessential activator, since enzymatic activity was always detectable in its absence. Chloride ions, which activate other Zn2+ metalloenzymes, also activated leukotriene A4 hydrolase/aminopeptidase with an EC50 = 50 mM, increasing its initial velocity 2.2-fold in the absence of albumin. Zn2+ activated the enzyme, increasing its apparent Vmax but not its apparent Km, suggesting it replaced Zn2+ lost from the active site, especially at acidic pH. At concentrations greater than 30-50 microM, Zn2+ was inhibitory. Albumin mitigated the effect of chloride, but not the effect of Zn2+ or that of the competitive inhibitor, captopril.(ABSTRACT TRUNCATED AT 250 WORDS)     

Estimation of intracellular chloride activity in isolated perfused rabbit proximal convoluted tubules using a fluorescent indicator.

The methodology has been developed to measure cell chloride activity by fluorescence microscopy using the chloride-sensitive dye, 6-methoxy-1-(3-sulfonatopropyl)quinolinium (SPQ). SPQ was loaded into cells of the in vitro microperfused rabbit proximal convoluted tubule by a 10 min luminal perfusion with 20 mM SPQ at 38 degrees C. Fluorescence was excited with a broad band excitation filter (340 and 380 nm) and detected with a 435 nm cut-on filter. The signal to background (autofluorescence) ratio was 4.6 +/- 0.6. The halftime for SPQ leakage from cells at 38 degrees C was 8.6 +/- 1.1 min. In suspended tubules, SPQ did not affect O2 consumption significantly. Intracellular SPQ calibration was performed using the ionophores nigericin and tributyltin, high external potassium concentrations, and varying extracellular chloride concentrations. Cell fluorescence was related to intracellular chloride by a Stern-Volmer relation with a quenching constant of 12 M-1. Apparent chloride concentration in tubules perfused with solutions characteristic for the late proximal convoluted tubule was 27.5 +/- 5 mM (activity 20.6 mM). The halftime of the transient in cell chloride activity upon bath chloride addition was approximately 3 s (38 degrees C). Applications and limitations of this new fluorescence method to study cell chloride transport are discussed.     

Inhibition of carbonic anhydrase by plasma of dogs and rabbits

Carbonic anhydrase (CA) activity was measured by the Bowes-Davis technique in diluted hemolysates of dog erythrocytes, rabbit erythrocytes, and dog lung tissue homogenates. Plasma (from the same animal) inhibited the CA activity in each case. For 1:16,700 dilution of dog erythrocytes, the CA catalyzed the CO2 hydration reaction by 5.3 +/- 0.4-fold above the uncatalyzed rate, and half that activity was inhibited by plasma concentrations of 0.44 +/- 0.05%. Similar rabbit CA concentrations were inhibited by plasma concentrations of 1.02 +/- 0.24%. CA from dog lung tissue homogenate is only partially inhibited by plasma even at high plasma concentrations, suggesting different isozymes, at least one of which is not inhibited by plasma. The results suggest that extrapolating from artificially perfused lungs or histological observations to in vivo conditions may not be valid, and the possibility of inhibition by plasma in at least some species should be considered.     

Measurement and kinetic study of the formation of adrenaline sulphate in vitro.

The sulpho-conjugation of [14C]adrenaline form inorganic sulphate and ATP or preformed adenosine 3'-phosphate 5'-sulphatophosphate was demonstrated in the high-speed supernatant prepared from the liver and small intestine of various animals. Hydrolysis with sulphatase indicated the sulphate nature of the conjugate. The overall sulphation reaction has a pH optimum of 9.0. Maximal activity was obtained with a ratio of ATP/Mg2+ of 1 at 4--6mM. Above their optimal concentrations, ATP and Mg2+, separately or in combination, were inhibitory. Dithiothreitol at 3 mM stimulated the reaction by about 30%. The Km for adrenaline, determined by the sulphotransferase reaction and by the three-step (sulphate-activating and sulphotransferase) reactions was 125 micrometer. The rate of synthesis of [14C]-adrenaline sulphate, expressed in pmol/min per mg of protein for the livers of dog, monkey, rat, guinea pig and rabbit were, respectively, 144, 77, 47, 11 and 6. The corresponding values for the small intestines of dog and monkey were 60 and 62. Brain and heart tissues showed no measurable activity.     

Degradation of thymic humoral factor gamma2 by human plasma: involvement of angiotensin converting enzyme

The degradation of thymic humoral factor-gamma2 (THF-gamma2), an immunoregulatory octapeptide important for T-lymphocyte regulation, by enzymes present in human plasma, was investigated. THF-gamma2 was metabolized through two steps that involved the detaching of N-terminal amino acid leucine followed by hydrolysis of the Lys(6)-Phe(7) bond. The THF-gamma2 cleavages were sensitive to aminopeptidase and metalloproteinase inhibitors. The degradation was completely blocked by amastatin and specific inhibitors of angiotensin converting enzyme (ACE). The cleavages occurred independently, with two different kinetics, faster for the N-terminal hydrolysis than for that of the Lys(6)-Phe(7) bond. Purified human plasma ACE was used to characterize the hydrolysis of Lys(6)-Phe(7) bond. The K(m) and K(cat) values for THF-gamma2 hydrolysis were 0.273 mM and 107 s(-1), respectively. The optimum of chloride concentration was 300 mM, while that of pH was 7.6. The presence of ACE in circulating mononuclear cells raises the possibility that it may play a role in modulating the THF-gamma2 activity.     

Immunochemical evidence for glutamine-mediated degradation of glutamine synthetase in cultured Chinese hamster cells.

The specific activity of glutamine synthetase in cultured Chinese hamster cells is inversely related to the concentration of glutamine in the surrounding solution. Enzyme specific activity increases 8- to 10-fold when glutamine is removed from serum-free F12 growth media. The induction of glutamine synthetase activity occurs only after glutamine removal and not after the removal of other amino acids (methionine, leucine, or isoleucine). The analysis of the glutamine-mediated decrease in glutamine synthetase activity has been simplified by the finding that depression proceeds in nutrient-free buffered saline solution (141 mM NaCl, 5.4 mM KCl and 30 mM Tricine (pH 7.4). Under these conditions, 0.1 mM cyanide blocks glutamine-mediated depression. The cyanide inhibition is reversed by the addition of 1.0 mM glucose which suggests that ATP is required for depression. Glutamine-mediated depression is temperature-dependent, occurring between 25 and 45 degrees with an optimum rate at 37 degrees. Studies of the time course of induction and depression as a function of glutamine concentration suggest that glutamine regulates the rate at which the enzyme is either modified or degraded. We have employed an antibody prepared against homogeneous Chinese hamster liver glutamine synthetase to measure the amount of glutamine synthetase protein in extracts of cells containing induced or depressed levels of enzyme activity. A highly sensitive immunoprecipitation procedure enables quantitation of nanogram amounts of glutamine synthetase protein. Glutamine synthetase in cell extracts containing induced levels of enzyme activity possesses the same molecular specific activity (ratio of activity to antigenicity) as homogeneous Chinese hamster liver glutamine synthetase. The molecular specific activity of glutamine synthetase is almost the same in extracts of cells with depressed levels of enzyme obtained by growth for short (2 hours) and long (24 hours) times in the presence of glutamine. These data suggest that glutamine-mediated depression of glutamine synthetase results from degradation of enzyme molecules.     

Sulfate potentiation of the chloride activation of angiotensin converting enzyme

The angiotensin converting enzyme (ACE)-catalyzed hydrolysis of furanacryloyl-Phe-Gly-Gly is activated by monovalent anions, notably chloride. This activation is enhanced by sulfate; at pH 7.5, the effect is maximal at 0.8 M sulfate and is mediated through a specific interaction of the divalent anion with the enzyme, not through an increase in ionic strength. Sulfate decreases the apparent binding constant for chloride which manifests as a decrease of the apparent KM value, but it does not change kcat. Thus, at pH 7.5, sulfate solely affects substrate binding in accord with the ordered bireactant mechanism of chloride activation that pertains with this substrate [Bünning, P., & Riordan, J.F. (1983) Biochemistry 22, 100-116]. Increasing the pH from 6 to 9 in the absence of sulfate increases the apparent binding constant for chloride almost 60-fold from 3.3 to 190 mM. In the presence of 0.8 M sulfate, however, the change is only about 6-fold, from 0.7 to 4.2 mM. Over the same pH range, the apparent KM for furanacryloyl-Phe-Gly-Gly obtained with saturating chloride concentrations shifts from 0.14 to 0.48 mM, while in the presence of 0.8 M sulfate about 3-fold lower apparent KM values are obtained. Sulfate does not appear to affect the pK of a group on the enzyme that controls the mechanism of chloride activation but rather decreases the apparent KM by reducing the apparent binding constant for chloride.     

兔抗金黄地鼠酶标抗体的制备及应用

目的 纯化金黄地鼠血清IgG,制备兔抗金黄地鼠酶标抗体(IgG-HRP),开展金黄地鼠仙台病毒的初步检测.方法 采用亲和层析纯化法纯化金黄地鼠IgG,用SDS- PAGE电泳测定IgG纯度并制备兔抗金黄地鼠IgG抗体(second antibody,Ab2);用免疫双扩散法检测抗血清效价后,再用亲和层析纯化抗血清IgG( Ab2);采用改良过碘酸钠标记法制备兔抗金黄地鼠酶标抗体( rabbit anti-hamster IgG-HRP);用直接ELISA和Western-blot法对兔抗金黄地鼠IgG酶标抗体进行工作浓度测定;应用金黄地鼠酶标抗体对金黄地鼠仙台病毒进行酶免检测(IEA).结果 金黄地鼠血清IgG纯度达95％;兔抗金黄地鼠IgG抗体(Ab2)免疫双扩散效价为1(:)64;兔抗金黄地鼠IgG -HRP经直接ELISA和Western-Blot测定工作浓度分别为1∶5000和1∶2000;酶免(IEA)效价为1:2000.结论 高效快速纯化了金黄地鼠IgG,制备了金黄地鼠IgG-HRP,为金黄地鼠病原微生物的血清学检测提供了条件.     

Optimization of a vehicle solution for the introduction and removal of glycerol with rabbit kidneys

Previous studies with rabbit kidneys in our laboratories have used a plasma-like solution as the vehicle for the introduction and removal of glycerol. Other workers have usually employed high-potassium solutions. In this study we have assayed the function of rabbit renal cortical slices after incubation in a range of solutions, each of which contained 1 M glycerol, for 4 hr, followed by stepwise removal of the cryoprotectant. The functions measured were endogenous oxygen consumption, p-aminohippurate uptake, and the ability of the slices to accumulate potassium. Exposure to glycerol produced a considerable reduction of slice function, but, in the presence of glycerol, elevation of the potassium concentration was beneficial, whereas high concentrations of magnesium were detrimental. The optimum potassium concentration was 70-100 mM. Replacement of chloride by a range of anions of higher molecular weight was either without benefit (glycerophosphate) or detrimental (sulfate, citrate, and gluconate). Elevation of total osmolality from 300 to 400 mosmolal with glucose, mannitol, glycerophosphate, or Pipes reduced slice function, but when the same osmolality was achieved by raising the concentration of all the components of the solution in the same ratio, there was no significant loss of function. There was a weak optimum pH at ca. 7.0. These experiments led to the formulation of a bicarbonate-buffered perfusate containing 80 mM potassium and 17.5 g Haemaccel per liter, having a pH of 7.0 with 5% CO2 at 10 degrees C, and an osmolality of 400 mosmol/kg. This solution was used to preserve rabbit kidneys for 20 hr at 10 degrees C, by continuous perfusion, and was compared with our previous Haemaccel perfusate, HP5, which contained 4 mM K+, 111 mM mannitol, and had a pH of 7.4. The two solutions were equally effective.     

Presence and characterization of complement-like activity in the amphioxus Branchiostoma belcheri tsingtauense

The humoral fluid of Branchiostoma belcheri tsingtauense was examined for the presence of complement-like activity. The humoral fluid showed hemolytic activity for rabbit erythrocytes and those from species representing mammals, birds, amphibians and fish, but not sensitized sheep erythrocytes. There was no relationship between phylogeny of the target erythrocytes and degree of hemolysis. The hemolytic activity was optimally assayed at 20 degrees C, at pH 7.5, and in the presence of 10 mM Mg2+. The hemolytic activity was Mg2+-dependent and heat-sensitive, and was abrogated by treatment with rabbit anti-human C3 serum, zymosan, methylamine, hydrazine, and phenylmethylenesulfonyl fluoride. In addition, Western blotting and titration by turbidimetric immunoassay (TIA) revealed that amphioxus humoral fluid contained C3 component, and its concentration is about 1.17 mg/ml, which is comparable to C3 concentration in human or dog sera. These suggest that the hemolytic activities displayed by amphioxus humoral fluid appear to represent the vertebrate complement system probably operating via the alternative pathway.     

Physiological and enzymatic properties of the ram epididymal soluble form of germinal angiotensin I-converting enzyme.

The 94-kDa ram epididymal fluid form of the sperm membrane-derived germinal angiotensin I-converting enzyme (ACE) was purified by chromatography, and some of its enzymatic properties were studied. For the artificial substrate furanacryloyl-L-phenylalanylglycylglycine (FAPGG), the enzyme exhibited a Michaelis constant (K(m)) of 0.18 mM and a V(max) of 34 micromoles/(min x mg) and for hippuryl-L-histidyl-L-leucine a K(m) of 2.65 mM and a V(max) of 163 micromoles/(min x mg) under the defined standard conditions (300 mM NaCl and 50 mM Tris; pH 7.5 and 8.3, respectively). The FAPGG hydrolysis was decreased by 82.5% and 67.5% by EDTA and dithioerythritol, respectively, and was totally inhibited by specific ACE inhibitors such as captopril, P-Glu-Trp-Pro-Arg-Pro-Glu-Ile-Pro-Pro, and lisinopril. Optimum activity for FAPGG was with pH 6.0, 50 mM chloride, and 500 microM zinc. Under the various conditions tested, bradykinin, angiotensin (Ang) I, Ang II, and LHRH were competitors for FAPGG. Bradykinin and angiotensin I were the best competitors. The enzyme cleaved Ang I into Ang II, and the optimal conditions were with pH 7.5 and 300 mM chloride. The relationship between the carboxypeptidase activity in seminal plasma and the prediction of fertility of young rams was also studied. These results indicated a correlation between sperm concentration and ACE activity in semen but showed no statistically significant correlation between such activity and fertility of the animal. Finally, we tested the role of ACE in fertilization; no difference in the in vitro fertilization rate was observed in the presence of 10(-4) M captopril.     

Studies of a calcium-activated neutral protease from chicken skeletal muscle. I. Purification and characterization.

A calcium-activated neutral protease was purified 2,700-fold over the crude extract from chicken skeletal muscle. The purified protease migrated as a single band on polyacrylamide gel electrophoresis with or without SDS. Its molecular weight was 80,000 and pH optimum for activity was 7.7. The activity required strictly the presence of calcium (optimum concentration: 1.8 mM) or strontium (optimum concentration: 10 mM) ions. The protease was inhibited by leupeptin, which is known to be a strong inhibitor of papain, cathepsin B, trypsin, and plasmin.