Activity of Pz-peptidase and endo-oligopeptidase are due to the same enzyme

During purification of endo-oligopeptidase from rabbit heart, activities cleaving bradykinin, a substrate of endo-oligopeptidase, and Mcc-Pro-Leu-Gly-Pro-D-Lys(Dnp), a substrate of Pz-peptidase, were found in the same fractions. The hydrolysis of both substrates was inhibited by antisera against endo-oligo-peptidase and Pz-peptidase, and reversibly inhibited by 1, 10-phenanthroline. The purified enzyme hydrolysed Dnp-Pro-Leu-Gly-Pro-Trp-D-Lys, another substrate of Pz-peptidase. Purified Pz-peptidase from rabbit muscle degraded bradykinin and was inhibited by an antiserum against endo-oligopeptidase.     

Purification and characterization of Pz-peptidase from rabbit muscle

Pz-peptidase was purified from rabbit muscle by acid precipitation of tissue homogenate followed by cation- and anion-exchange chromatography, gel chromatography, and immunoadsorption. In analytical gel chromatography, one single peak of protein with corresponding Pz-peptidase activity was obtained. The enzyme had an apparent Mr of 74,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and was eluted at pH 4.8 in chromatofocusing. No metals were detectable in the protein by neutron activation analysis. Purified Pz-peptidase hydrolyzed Dnp-Pro-Leu-Gly-Pro-Trp-D-Lys (Km 7.2 microM) most effectively in the presence of 5 mM 2-mercaptoethanol and 10 mM CaCl2. No inhibition was observed with inhibitors of serine proteinases, aspartic proteinases, or metalloproteinases, apart from some nonspecific reversible inhibition by 1,10-phenanthroline. The activation by Ca2+ was reversed by EDTA. The enzyme was not inhibited by E-64, cystatin, or leupeptin, but was irreversibly inactivated by iodoacetate, iodoacetamide, and N-ethylmaleimide. It was therefore concluded that rabbit muscle Pz-peptidase is not a typical member of any of the four recognized catalytic classes of proteinases, but may be an atypical cysteine endopeptidase. The peptidase was not bound by alpha 2-macroglobulin. No hydrolysis of gelatin or fibronectin by the enzyme was detected, nor was there any activation of latent collagenase.     

Studies on a peptidase acting on a synthetic collagenase substrate Developmental pattern in rat granuloma tissue and distribution of enzyme in the tissues of various animals

The developmental pattern in experimental rat granuloma tissue and the distribution in the tissues of a few animals (monkey, rabbit, guinea pig anrat) of a peptidase acting on a synthetic collagenase substrate, 4-phenylazobenzyloxycarbonyl-L-Pro-L-Leu-Gly-L-Pro-D-Arg (Pz-peptide) has been studied. Maximum enzyme activity was found in 4-month-old rats and on the fourth day of implantation of the cotton wick. Pz-peptidase appears to have a ubiquitous distribution in animal tissues; the highest enzyme activity was generally found in liver, intestine and kidney of the animals. The total activity in other organs (spleen, heart, lungs and brain) was much less compared to that of liver, intestine or kidney.     

Chicken liver Pz-peptidase, a thiol-dependent metallo-endopeptidase.

Pz-peptidase was purified from chicken liver as a protein of Mr 80,000 and pI 5.2. The purified enzyme hydrolysed phenylazobenzyloxycarbonyl-Pro-Leu-Gly-Pro-D-Arg, 2,4-dinitrophenyl-Pro-Leu-Gly-Pro-Trp-D-Lys. 7-methoxycoumarin-3-carboxylyl-Pro-Leu-Gly-Pro-D-(2,4-dinitropheny l)Lys, benzoyl-Gly-Ala-Ala-Phe-p-aminobenzoate, Ac-Ala4 (at the Ala-1-Ala-2 bond) and bradykinin (at the Phe-5-Ser-6 bond). No hydrolysis of proteins was detected. Loss of activity in the presence of EDTA or 1,10-phenanthroline was time-dependent. Metal ions found to restore activity after treatment with EDTA were Zn2+, Mn2+, Ca2+, Co2+ and Cd2+, in decreasing order of effectiveness. Ni2+, Fe2+ and higher concentrations of Zn2+ were inhibitory. Inhibition by N-[1-(RS)-carboxy-3-phenylpropyl]-Ala-Ala-Tyr-p-aminobenzoate and related compounds showed Ki values (down to 5 nM) somewhat lower than those for the rat enzyme. Pz-peptidase was activated by low concentrations of 2-mercaptoethanol and dithiothreitol, but inhibited by higher concentrations. p-Chloromercuribenzoate and some other thiol-blocking reagents were inhibitory. Inactivation by diethyl pyrocarbonate that was reversible by hydroxylamine showed the presence of essential histidine residue(s). We conclude that chicken Pz-peptidase is a metallo-endopeptidase with thiol-dependence. Moreover, the properties of chicken Pz-peptidase agree with those described for mammalian soluble metallo-endopeptidase and endo-oligopeptidase A. consistent with the view that these three types of activity are all attributable to the single enzyme for which the name thimet peptidase has been proposed.     

Distribution of Pz-peptidase in bovine epididymal and ejaculated semen

Bovine epididymal or ejaculated semen was fractionated by density gradient centrifugation in Percoll, and seminal components recovered from the gradients were subjected to additional separation and washing steps. This procedure resulted in isolation of four major seminal constituents: particle-free extracellular fluid, washed light particulates, washed cytoplasmic droplets, and washed spermatozoa. When assayed using the Pz-peptide substrate, all the isolated seminal fractions contained substantial Pz-peptidase activity. The extracellular fluid Pz-peptidase was present in soluble form, but Triton X-100 was required for complete extraction of the Pz-peptidase activity from the spermatozoa, cytoplasmic droplets, and light particulates. The greatest Pz-peptidase activities were observed in the cytoplasmic droplet and epididymal sperm extracts, whereas the activities in extracellular fluid, extracts of light particulates, and extracts of ejaculated spermatozoa were relatively low. Most of the Pz-peptidase activity in extracts of epididymal spermatozoa was attributable to cytoplasmic droplets. The specific Pz-peptidase activities found by regression analysis were 6.1 mU/billion attached cytoplasmic droplets and 1.1 mU/billion spermatozoa. These results established that in the bovine, cytoplasmic droplets were the major source of Pz-peptidase activity in semen and that Pz-peptidase was not primarily a spermatozoal enzyme.     

Identification and preliminary characterization of two distinct bovine seminal Pz-peptidases

Two peptidases hydrolyzing the Pz-peptide substrate were identified in bovine semen. Each Pz-peptidase was strongly inhibited by chelating agents, suggesting both were metallopeptidases. However, these peptidases could be distinguished by other properties and were designated Pz-peptidases A and B. Pz-peptidase A hydrolyzed the Pz-peptide at the Leu-Gly bond, was inhibited by tosylphenylethylchloromethylketone (TPCK) but not by phosphoramidon and had a pH optimum near 6, whereas Pz-peptidase B cleaved the Pro-Leu bond, was inhibited by phosphoramidon but not by TPCK and had a pH optimum near 7. Seminal plasma, light particulates and cytoplasmic droplets contained almost exclusively Pz-peptidase A, and Pz-peptidase A predominated in sperm extracts. Pz-peptidase B was found primarily in sperm extracts, but Pz-peptidase B activity was also present in ultralight particulates. Pz-peptidase A of spermatozoa required Triton X-100 for complete extraction, but Pz-peptidase B was solubilized from spermatozoa by nitrogen decompression without detergents. Pz-peptidase B was inhibited by several detergents. In particular, addition of 0.1% Hyamine 2389 to sperm extracts inhibited 99% of the Pz-peptidase B activity. Thus, Pz-peptidase B may have been overlooked in previous studies employing extraction of spermatozoa with Hyamine 2389. The properties of both seminal PZ-peptidases were different from those of purified bovine testicular PZ-peptidase, suggesting that PZ-peptidases from these sources were not identical.     

The activities of ''Pz-peptidase'' and ''endopeptidase 24.15'' are due to a single enzyme.

It was found that Pz-peptidase (assayed with 2,4-dinitrophenyl-Pro-Leu-Gly-Pro-Trp-D-Lys) and endopeptidase 24.15 (assayed with benzoyl-Gly-Ala-Ala-Phe-p-aminobenzoate) were co-purified from rat skeletal muscle, were co-eluted in high-resolution gel chromatography and co-existed in a homogeneous preparation of rat testis endopeptidase 24.15. The action of partially purified Pz-peptidase from rat testis on 4-phenylazobenzyloxycarbonyl-Pro-Leu-Gly-Pro-D-Arg was blocked by an inhibitor of endopeptidase 24.15, and also by a substrate of this enzyme. The partially purified enzyme hydrolysed two substrates of endopeptidase 24.15 with Km values similar to those published previously, and its action on 2,4-dinitrophenyl-Pro-Leu-Gly-Pro-Trp-D-Lys was inhibited by compounds that are considered specific for endopeptidase 24.15. We conclude that the activities previously attributed to two distinct enzymes are due to only one, and that the merging of the two literatures may lead to new lines of research.     

Purification and characterization of Pz-peptidase B, a neutral metalloendopeptidase from bovine spermatozoa

We have demonstrated previously that the Pz-peptide synthetic substrate is cleaved by two distinct spermatozoal peptidases, Pz-peptidases A and B. To facilitate further investigations, Pz-peptidase B was purified from bovine spermatozoa. The soluble extract from 81 grams of washed epididymal spermatozoa was fractionated by a five-step procedure consisting of anion-exchange, lectin affinity, hydrophobic interaction, chromatofocusing, and gel filtration chromatography. This method yielded 1 mg of 170-fold purified Pz-peptidase B with a 26% recovery. The purified Pz-peptidase B was electrophoretically homogeneous and possessed a monomeric molecular weight of 90,700. Isoelectric focusing revealed microheterogeneity with pIs ranging from 5.02 to 5.09. Pz-peptidase B was irreversibly inactivated at pH 3.5 or below, and activity was reduced at moderate ionic strengths. Hydrolysis of the Pz-peptide was maximal at pH 7.5. Pz-peptidase B was strongly inhibited by a metal chelator and phosphoramidon. Reactivation of metal-depleted enzyme by various metal ions suggested that Pz-peptidase B was a zinc metallopeptidase. Pz-peptidase B hydrolyzed a wide variety of synthetic substrates and physiologically activity peptides at the amino side of hydrophobic amino acids. These results established that Pz-peptidase B should be classified as a neutral metalloendopeptidase. Overall, the properties of Pz-peptidase B were very similar to those of previously described neutral metalloendopeptidases implicated in degradation of regulatory peptides.     

The effect of bile acids on liver alcohol dehydrogenase in different mammalian species.

1. The effect of bile acids on the activity of liver alcohol dehydrogenase (L-ADH, EC 1.1.1.1) from different mammalian organisms is species dependent. 2. The kinetic behaviour of purified L-ADH from rat and rabbit liver in presence of deoxycholic acid and with ethanol as substrate shows two rather different patterns: for rabbit enzyme deoxycholic acid acts as a full competitive inhibitor, while for rat enzyme an activation effect is observed, with an increase of both Km and Vmax. Similar patterns are obtained with the steroid substrate 3 beta-hydroxy-5 beta-androstane-17one. 3. These results show that in some species, including man, L-ADH activity can be regulated by bile acids, that could control both ethanol oxidation and their own biosynthesis since L-ADH is involved in both metabolic pathways in liver cell.     

An alternative quenched fluorescence substrate for Pz-peptidase

7-Methoxycoumarin-3-carboxylyl-Pro-Leu-Gly-Pro-D-Lys(2,4-dinitr oph enyl) is introduced as a new quenched fluorescence substrate for assaying Pz-peptidase (also known as soluble metallo-endopeptidase and endo-oligopeptidase). The value of Km for partially purified Pz-peptidase from rat muscle was 8.6 microM. High protein concentrations did not interfere with the assay, so that for the first time continuous assays of Pz-peptidase in crude tissue extracts became possible.     

A comparative study of the rate-limiting enzymes of cholesterol synthesis, esterification and catabolism in the rat and rabbit

1. The rat and rabbit are amongst the animal models most widely used in the study of human atherosclerosis, a disease state correlating with disturbances in cholesterol metabolism. 2. In order to relate the key regulatory enzymes of cholesterol synthesis, esterification and catabolism in the rat and rabbit to their differing degree of susceptibility to atherosclerosis, enzyme levels and their properties were determined in liver and intestine of both species. 3. Hepatic HMG CoA reductase and cholesterol 7 alpha-hydroxylase levels were significantly higher in the rat than in the rabbit, while intestinal HMG CoA reductase activity in the two species was comparable. Conversely, the capacity to esterify cholesterol as measured by ACAT activities was considerably greater in both sites in the rabbit compared to the rat. 4. The data suggest that differences in the key regulatory enzymes of cholesterol metabolism in both liver and intestine may reflect different methods of cholesterol utilization in the two species.     

Differences between glycogen synthases from rat and rabbit skeletal muscle as indicated by phosphopeptide maps

Glycogen synthase I was purified from rat skeletal muscle. On sodium dodecyl sulfate polyacrylamide gel electrophoresis, the enzyme migrated as a major band with a subunit Mr of 85,000. The specific activity (24 units/mg protein), activity ratio (the activity in the absence of glucose-6-P divided by the activity in the presence of glucose-6-P X 100) (92 +/- 2) and phosphate content (0.6 mol/mol subunit) were similar to the enzyme from rabbit skeletal muscle. Phosphorylation and inactivation of rat muscle glycogen synthase by casein kinase I, casein kinase II (glycogen synthase kinase 5), glycogen synthase kinase 3 (kinase FA), glycogen synthase kinase 4, phosphorylase b kinase, and the catalytic subunit of cAMP-dependent protein kinase were similar to those reported for rabbit muscle synthase. The greatest decrease in rat muscle glycogen synthase activity was seen after phosphorylation of the synthase by casein kinase I. Phosphopeptide maps of glycogen synthase were obtained by digesting the different 32P-labeled forms of glycogen synthase by CNBr, trypsin, or chymotrypsin. The CNBr peptides were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and the tryptic and chymotryptic peptides were separated by reversed-phase HPLC. Although the rat and rabbit forms of synthase gave similar peptide maps, there were significant differences between the phosphopeptides derived from the N-terminal region of rabbit glycogen synthase and the corresponding peptides presumably derived from the N-terminal region of rat glycogen synthase. For CNBr peptides, the apparent Mr was 12,500 for rat and 12,000 for the rabbit. The tryptic peptides obtained from the two species had different retention times. A single chymotryptic peptide was produced from rat skeletal muscle glycogen synthase after phosphorylation by phosphorylase kinase whereas two peptides were obtained with the rabbit enzyme. These results indicate that the N-terminus of rabbit glycogen synthase, which contains four phosphorylatable residues (Kuret et al. (1985) Eur. J. Biochem. 151, 39-48), is different from the N-terminus of rat glycogen synthase.     

Isolation and characterization of Pz-peptidase from Bacillus licheniformis N22

Pz-peptidase is an endopeptidase that cleaves the synthetic substrate, 4-phenylazobenzyloxycarbonyl-Pro-Leu-Gly-Pro-Arg (Pz-peptide), which was originally developed for the assay of Clostridium histolyticum collagenase (Wünsch and Heidrich, Hoppe-Seyler's Z. Physiol. Chem., 333, 149–151, 1963; Morales and Woessner, J. Biol. Chem., 252, 4855–4860, 1977). Pz-peptidase was purified from the culture filtrate of Bacillus licheniformis N22. The purified Pz-peptidase showed a molecular weight of 70,000 in SDS-polyacryl-amide gel electrophoresis and 150,000 in gel filtration. Optimal pH for cleavage of Pz-peptide was 7.8. The Pz-peptidase activity was strongly inhibited by metal chelators such as EDTA and O-phenanthroline. Substrate specificity studies indicated that Pz-peptidase cleaved oligopeptides at the Xaa-Gly site in Xaa-Gly-Pro. However, Pz-peptidase failed to hydrolyze native collage, denatured collagen, hemoglobin and casein.     

Inter-tissue and inter-species comparison of butyrylcholinesterases

Butyrylcholinesterase (BuChE) occurs in a multiple molecular forms whose catalytic activity depends on tissue distribution and species. The hypothesis led us to the study of BuChE catalytic properties focused on the inter-tissue and inter-species level with benzoylcholine and N-alkyl derivates of benzoylcholine (BCHn) as substrates. These compounds are soft disinfectants easily biodegradable to biologically inactive hydrolytic products, substituted choline and benzoic acid. Different sources of BuChE were used: rabbit and rat liver microsomal fraction (membrane-anchored enzyme) and serum (soluble form). Hydrolytic activity of both these BuChE forms was compared to rat recombinant BuChE (rBuChE). Hydrolytic product (benzoic acid) formation was recorded as function of time, and hydrolytic rate was determined. Tissue distribution of BuChE plays an important role in hydrolysis of BCHn. High BuChE activity was observed in a serum of both studied species rat and rabbit and was significantly dependent on a structure of substrates. Activity of soluble serum forms was the same as that for the rBuChE. Significant change of BuChE activity was recorded on the inter-species level in the microsomal fractions. It is because the rabbit microsomal BuChE activity had absolutely different course for all substrates as compared to rat microsomes. Inhibitory studies of BCHn enzymatic hydrolysis of all BuChE forms were performed to determine the level of BuChE participation in BCHn hydrolysis. It can be concluded that short-chain BCHn substrates are exclusively hydrolyzed by BuChE from all studied sources except for the rabbit liver microsomal fraction. Rabbit seems to have different enzymes involved in the hydrolysis of all studied BCHn compounds.     

Monoclonal Antibodies to Mammalian Carnosine Synthetase

A set of mouse monoclonal antibodies has been generated against rabbit muscle carnosine synthetase. The immunoreactivity of these antibodies has been characterized using an immunoassay that permits the separation and direct measurement of the synthetase activity on a second antibody bead complex. Four IgG monoclonal antibodies bind the carnosine synthetase activity from muscle of all mammals tested (mouse, rat, rabbit, cow, dog, and monkey) but not that from chicken muscle. This indicates the mammalian enzymes share epitopes that are absent from the avian enzyme. In addition, relative tissue levels of synthetase activity can be quantified with this immunoassay. Thus, high levels of carnosine synthetase activity are immunoprecipitated from the olfactory tissues of both rat and rabbit. Synthetase activity is generally lower in other tissues (muscle, brain, heart, liver, and gut). Nevertheless, the cross-reactivity of the synthetase from several tissues (olfactory mucosa, muscle, brain, gut, heart, and liver) of a single species indicates the enzyme protein contains similar epitopes in these tissues. Immunoaffinity purification of this low-abundance, unstable enzyme should now be possible for subsequent studies of structure and regulation.     

Species variation in the distribution of cholinesterases in the ovary of the plains viscacha, cat, ferret, rabbit, rat, guinea-pig and roe deer

Synopsis Sections of ovary from plains viscacha, cat, ferret, rabbit, rat, guinea-pig and roe deer have been histochemically processed to demonstrate acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) in nervous and non-nervous tissue. The effects of different reproductive states on enzyme activity were observed in some animals. AChE-containing nerves were sparse in rabbit and rat but plentiful in cat and roe deer. Nerves containing BuChE were not detectable in ferret or guinea-pig and were rare in cat. Species variations in the activity and type of enzyme were also found in non-neuronal tissues. Some blood vessels in the ovaries of guinea-pig and viscacha contained AChE. No other species showed a reaction for AChE in non-neuronal stromal tissue but BuChE was present at this site in all animals except rat. Granulosa cells reacted for AChE only in cat and rabbit while luteal cells were reactive in cat, rabbit and roe deer. Some BuChE activity was present in granulosa and or luteal cells in all species except roe deer. In rat, BuChE activity in luteal cells increased during oregnaney and the early phase of pseudopregnancy. The difficulty of assigning a function to ovarian cholinesterases is discussed.     

Glutamine synthetase in kidneys of monkey and man.

1. The synthesis of gamma-glutamylhydroxamate from glutamate and hydroxylamine has been utilized as an approximation of glutamine synthetase activity in kidneys of rabbit, rat, dog, monkey and man. 2. Kidneys of rabbit contain glutamine synthetase in high activity; those of rat, in intermediate activity; and those of dog, monkey and man, in negligible activity. 3. No more enzyme is present in kidneys of the latter two species than in those of the dog, in which the enzyme is generally considered to be absent.     

6-Phosphofructo-1-kinase isoenzymes of the jejunal mucosa of rabbit, rat and mouse

1. 6-Phosphofructo-1-kinase (PFK) isoenzymes were studied in the jejunal mucosa of rabbit, rat and mouse. 2. The rat mucosal enzyme was found to be very similar to, although not identical with, the mouse mucosal enzyme, as the physical and regulatory properties of these two enzymes were nearly similar except that the immunological studies were dissimilar. 3. PFK prepared from rabbit mucosa showed different and distinct properties from the rat and mouse mucosal PFK when studied by (NH4)2SO4-precipitation, polyacrylamide gel electrophoresis, immunological cross-reactivity and regulatory properties. 4. The difference between the rabbit enzyme and the rat or mouse enzymes is suggested to be due to the lower rate of glycolysis observed in the rabbit jejunal mucosa as the total enzyme activities of the rabbit were found to be less than half of those activities of the rat and mouse mucosa. 5. The dissimilarities among the species in mucosal isoenzymes obtained in the present study are rather expected since the term isoenzyme is now properly reserved for forms that have been shown to be genetically distinct as shown for different tissues in the same species. Such multigenic control does not appear to have been established for the same tissue in different species.     

Stereospecificity of hepatic L-tryptophan 2,3-dioxygenase.

Tryptophan 2,3-dioxygenase [L-tryptophan--oxygen 2,3-oxidoreductase (decyclizing), EC 1.13.11.11] has been reported to act solely on the L-isomer of tryptophan. However, by using a sensitive assay method with D- and L-[ring-2-14C]tryptophan and improved assay conditions, we were able to demonstrate that both the D- and L-stereoisomers of tryptophan were cleaved by the supernatant fraction (30000 g, 30 min) of liver homogenates of several species of mammals, including rat, mouse, rabbit and human. The ratio of activities toward D- and L-tryptophan was species variable, the highest (0.67) in ox liver and the lowest (0.07) in rat liver, the latter being hitherto exclusively used for the study of hepatic tryptophan 2,3-dioxygenase. In the supernatant fraction from mouse liver, the ratio was 0.23 but the specific activity with D-tryptophan was by far the highest of all the species tested. To identify the D-tryptophan cleaving enzyme activity, the enzyme was purified from mouse liver to apparent homogeneity. The specific activities toward D- and L-tryptophan showed a parallel rise with each purification step. The electrophoretically homogeneous protein had specific activities of 0.55 and 2.13 mumol/min per mg of protein at 25 degrees C toward D- and L-tryptophan, respectively. Additional evidence from heat treatment, inhibition and kinetic studies indicated that the same active site of a single enzyme was responsible for both activities. The molecular weight (150000), subunit structure (alpha 2 beta 2) and haem content (1.95 mol/mol) of the purified enzyme from mouse liver were similar to those of rat liver tryptophan 2,3-dioxygenase. The assay conditions employed in the previous studies on the stereospecificity of hepatic tryptophan 2,3-dioxygenase were apparently inadequate for determination of the D-tryptophan cleaving activity. Under the assay conditions in the present study, the purified enzyme from rat liver also acted on D-tryptophan, whereas the pseudomonad enzyme was strictly specific for the L-isomer.     

Role of the kallikrein-kinin system in glandular secretion

Microsomes were prepared from liver, lung and kidney of rats and rabbits using a Ca⁺² aggregation method. Microsomal protein yield from the lung of both species was higher by this method of preparation as compared with ultracentrifuged samples. Specific activities of rat and rabbit pulmonary p-chloro-N-methylaniline (CMA) demethylase, biphenyl 4-hydroxylase and rat pulmonary TPNH cytochrome c reductase also were decreased. Specific activities of rabbit hepatic TPNH cytochrome c reductase, CMA N-demethylase, UDP-glucuronyltransferase and biphenyl hydroxylase were decreased by calcium aggregation Renal enzyme activities were unchanged by this method of preparation. These data indicate an apparent species and organ difference in microsomal enzyme response to calcium aggregation.