Production of a New Type of Acid Carboxypeptidase of Molds of the Aspergillus niger Group

The ability of 88 fungi, which had been obtained as high-potency strains for acid proteinase production, to produce a new type of acid carboxypeptidase (having on optimal pH of about 3 for hydrolysis of benzyloxycarbonyl-glutamyltyrosine) in surface koji culture was determined. Among the aspergilli, substantial amounts of this new acid carboxypeptidase were produced by Aspergillus saitoi, A. usamii, A. awamori, A. inuii, and A. niger. Maximum yields of acid carboxypeptidase per gram of substrate were obtained by submerged culture in a medium containing 0.9% defatted soybean and 0.6% wheat bran. However, the maximum enzyme concentration per milliliter was obtained with a medium containing 3% defatted soybean and 2% wheat bran. The terminal pH could be controlled by varying the concentrations of soybean oil meal and wheat bran. The maximum enzyme production was reached after 4 days or more at 30 C.     

Submerged Production, Purification, and Crystallization of Acid Carboxypeptidase from Penicillium janthinellum IFO-8070

Penicillium janthinellum IFO-8070 produced an acid carboxypeptidase of molecular weight 51,000 in a liquid medium at 25 C. Maximum enzyme concentration was obtained within 3 to 6 days in a medium containing 2% wheat bran, 1% defatted soybean, and 1% KH(2)PO(4); the initial pH was 2 to 4. When submerged aerobic conditions were used, a 51,000-molecular-weight acid carboxypeptidase was produced and no detectable amounts of 160,000-molecular-weight acid carboxypeptidase were produced. Acid carboxypeptidase with a molecular weight of 51,000 was purified 330-fold from koji culture to yield a crystalline protein which was demonstrated by disc electrophoresis to be homogeneous. The purification method included ammonium sulfate fractionation, Amberlite CG-50 chromatography, acetone fractionation, Amberlite CG-50 rechromatography, and concentration in a collodion bag. The specific activity of the enzyme was about three times more than that of the acid carboxypeptidase from Aspergillus saitoi.     

Detection and partial characterization of a human mast cell carboxypeptidase

Using a high performance liquid chromatography assay that detects the cleavage of the C-terminal leucine from angiotensin I, we have identified a carboxypeptidase activity in mast cells from human lung and in dispersed mast cell preparations from human skin. The enzyme activity was detected in a preparation of dispersed human mast cells from lung of greater than 99% purity and was released with histamine after stimulation with goat anti-human IgE. In nine preparations of dispersed human mast cells from lung of 10 to 99% purity, net percentage of release of carboxypeptidase correlated with the release of histamine, localizing carboxypeptidase to mast cell secretory granules. The enzyme activity was also detected in preparations of dispersed human mast cells from skin and in extracts of whole skin. The inhibitor profile and m.w. of carboxypeptidase activity from preparations of dispersed mast cells from skin was similar to that from dispersed mast cells from lung. Mast cell carboxypeptidase had a m.w. on gel filtration of 30,000 to 35,000. The enzyme in crude lysates of dispersed mast cell preparations had optimal activity between pH 8.5 and 9.5 and was inhibited by potato inhibitor, which distinguished it from carboxypeptidase in cultured human foreskin keratinocytes and adult fibroblasts, and from other proteolytic mast cell enzymes. The enzyme activity was also inhibited by EDTA, o-phenanthroline, and, to a small extent, by 8-OH quinoline, but not by Captopril, soybean trypsin inhibitor, or pepstatin. These findings demonstrate that human mast cell secretory granules contain carboxypeptidase in addition to tryptase and chymase. It appears that mast cells from skin may have a higher content of carboxypeptidase than do mast cells from lung.     

Novel bifunctional hyperthermostable carboxypeptidase/aminoacylase from Pyrococcus horikoshii OT3

Genome sequencing of the thermophilic archaeon Pyrococcus horikoshii OT3 revealed a gene which had high sequence similarity to the gene encoding the carboxypeptidase of Sulfolobus solfataricus and also to that encoding the aminoacylase from Bacillus stearothermophilus. The gene from P. horikoshii comprises an open reading frame of 1,164 bp with an ATG initiation codon and a TGA termination codon, encoding a 43,058-Da protein of 387 amino acid residues. However, some of the proposed active-site residues for carboxypeptidase were not found in this gene. The gene was overexpressed in Escherichia coli with the pET vector system, and the expressed enzyme had high hydrolytic activity for both carboxypeptidase and aminoacylase at high temperatures. The enzyme was stable at 90 degrees C, with the highest activity above 95 degrees C. The enzyme contained one bound zinc ion per one molecule that was essential for the activity. The results of site-directed mutagenesis of Glu367, which corresponds to the essential Glu270 in bovine carboxypeptidase A and the essential Glu in other known carboxypeptidases, revealed that Glu367 was not essential for this enzyme. The results of chemical modification of the SH group and site-directed mutagenesis of Cys102 indicated that Cys102 was located at the active site and was related to the activity. From these findings, it was proven that this enzyme is a hyperthermostable, bifunctional, new zinc-dependent metalloenzyme which is structurally similar to carboxypeptidase but whose hydrolytic mechanism is similar to that of aminoacylase. Some characteristics of this enzyme suggested that carboxypeptidase and aminoacylase might have evolved from a common origin.     

Kinetic studies of wheat carboxypeptidase-catalyzed reaction: differences in pressure and temperature dependence of peptidase and esterase activities

A kinetic study of hydrolytic catalysis by wheat bran carboxypeptidase (carboxypeptidase W) was carried out using 3-(2-furyl)acryloyl-acylated (Fua-) synthetic substrates. This enzyme showed high esterase activity in addition to the intrinsic carboxypeptidase activity. The optimum pH for the peptidase activity (kcat/Km) was at pH 3.3 and the kcat/Km value decreased with increasing pH with an apparent pKa of 4.50, while the esterase activity increased with pH up to pH 8 with an apparent pKa of 6.04. Optimum pH's for kcat for the peptidase and esterase reactions were also very different and their apparent pKa values were 3.80 and 6.15, respectively. From a measurement of the pressure dependences of kcat and Km, the activation volumes (delta V not equal to) and reaction volumes (delta V), respectively, were determined. delta V not equal to for kcat was -7 to -8 ml/mol for peptidase and -2 to -3 ml/mol for esterase. These results lead us to propose that the peptidase and esterase activities of carboxypeptidase W are different not in the rate-determining steps in a common reaction pathway, but in the binding modes and/or catalytic site(s).     

(Met)enkephalin and carboxypeptidase processing enzyme are co-released from chromaffin cells by cholinergic stimulation

A carboxypeptidase B-like enzyme is involved in processing of proenkephalin in adrenal medulla. Nicotine stimulated the co-release of this enzyme with (Met)enkephalin pentapeptide from bovine chromaffin cells in primary culture. The ratio of enzyme activity/immunoreactivity was determined for the released carboxypeptidase to provide an index of the level of enzyme activity per unit number of enzyme molecules. The ratio for the Co++-stimulated carboxypeptidase secreted into the cell culture medium upon nicotinic stimulation was 10.1 +/- 1.02 (pmol Met-enkephalin formed per ng carboxypeptidase immunoreactivity), while the Co++-stimulated carboxypeptidase in the soluble and membrane components of purified chromaffin granules had lower ratios of 5.46 +/- 0.70 and 1.07 +/- 0.13, respectively. Hexamethonium, a nicotinic receptor antagonist, blocked the nicotine-induced release of the carboxypeptidase processing enzyme and (Met)enkephalin. These data suggest that a pool of carboxypeptidase enzyme molecules at a high state of activation are present in functionally mature granules whose contents are released by nicotinic receptor stimulation.     

Wheat Seed Carboxypeptidase and Joint Action on Gliadin of Proteases from Dry and Germinating Seeds

A carboxypeptidase preparation, homogeneous according to polyacrylamidegel electrophoresis and ultracentrifugation, was obtained fromwheat seeds. The isolation procedure included (NH₄)₂SO₄ fractionation,gel-filtration on Sepharose-6B and affinity chromatography onCABS-Sepharose. Mr of the enzyme determined by gel-filtrationwas 126 000. The enzyme consisted of two non-identical subunitsof Mr 60 000 and 63 000. The pl of the carboxypeptidase was5.7. The inhibitory analysis revealed that the isolated enzymeis a serine carboxypeptidase. The carboxypeptidase preferentiallyhydrolysed N-substituted dipeptides with aromatic amino acidresidues at the C-terminus and showed weak hydrolysing activitytowards gliadin. The combined action of carboxypeptidase andaspartic proteinase from dry wheat seeds led to an increasein the degree of proteolysis of the storage protein comparedto that resulting from the sum of the action of individual enzymes.The cysteine proteinase from germinated wheat seeds caused completedegradation both of gliadin, which had first been treated withproteases of dry seeds (aspartic proteinase plus carboxypeptidase),and of untreated gliadin. However, when gliadin had first beenhydrolysed with dry seed proteases, the rate of its proteolysiswith cysteine proteinase increased 3–4 times comparedto the non-hydrolysed gliadin. The data indicate the importanceof preliminary modification of gliadin with dry wheat proteases,which, apparently, enhances the supply of nutritive substancesto the embryo in the course of seed germination. Key words: Wheat, gliadin, carboxypeptidase, proteinases, proteolysis     

Novel Bifunctional Hyperthermostable Carboxypeptidase/Aminoacylase from Pyrococcus horikoshii OT3

Genome sequencing of the thermophilic archaeon Pyrococcus horikoshii OT3 revealed a gene which had high sequence similarity to the gene encoding the carboxypeptidase of Sulfolobus solfataricus and also to that encoding the aminoacylase from Bacillus stearothermophilus. The gene from P. horikoshii comprises an open reading frame of 1,164 bp with an ATG initiation codon and a TGA termination codon, encoding a 43,058-Da protein of 387 amino acid residues. However, some of the proposed active-site residues for carboxypeptidase were not found in this gene. The gene was overexpressed in Escherichia coli with the pET vector system, and the expressed enzyme had high hydrolytic activity for both carboxypeptidase and aminoacylase at high temperatures. The enzyme was stable at 90°C, with the highest activity above 95°C. The enzyme contained one bound zinc ion per one molecule that was essential for the activity. The results of site-directed mutagenesis of Glu367, which corresponds to the essential Glu270 in bovine carboxypeptidase A and the essential Glu in other known carboxypeptidases, revealed that Glu367 was not essential for this enzyme. The results of chemical modification of the SH group and site-directed mutagenesis of Cys102 indicated that Cys102 was located at the active site and was related to the activity. From these findings, it was proven that this enzyme is a hyperthermostable, bifunctional, new zinc-dependent metalloenzyme which is structurally similar to carboxypeptidase but whose hydrolytic mechanism is similar to that of aminoacylase. Some characteristics of this enzyme suggested that carboxypeptidase and aminoacylase might have evolved from a common origin.     

Selective regulation of carboxypeptidase peptide hormone-processing enzyme during enkephalin biosynthesis in cultured bovine adrenomedullary chromaffin cells

Bovine adrenomedullary chromaffin cells in culture were incubated with reserpine or forskolin, two agents acting through different mechanisms, which increase cellular [Met]enkephalin levels by 2-fold after 72 h. Cells were harvested and chromaffin granules were purified on a linear sucrose gradient. After reserpine treatment, carboxypeptidase-processing enzyme specific activity in chromaffin granule fractions was stimulated 1.9-fold, and Co2+-stimulated carboxypeptidase specific activity was stimulated 3-fold. The increase in enzyme activity was dependent on the time of reserpine treatment. Forskolin, on the other hand, had no significant effect on carboxypeptidase activity. The differential effects of reserpine and forskolin suggest that the carboxypeptidase-processing enzyme may be selectively regulated during periods of elevated enkephalin formation. Kinetic studies revealed that in cells exposed to reserpine, the Km value for [Met]enkephalin-Arg6 for the Co2+-stimulated carboxypeptidase activity was lowered to 0.136 from 0.447 mM, but there was no change in the Km values of the non-Co2+-stimulated carboxypeptidase activity from reserpine and control groups. Cellular levels of immunoreactive carboxypeptidase-processing enzyme, measured by a radioimmunoassay method, were not altered after reserpine treatment. These data suggest that while the total number of carboxypeptidase enzyme molecules remained constant, there may be a conversion of existing enzyme molecules to a more active form which displays a higher affinity for [Met]enkephalin-Arg6 in the presence of Co2+.     

Purification of D-alanine carboxypeptidase from Escherichia coli B on a penicillin-Sepharose column.

1. A soluble D-alanine carboxypeptidase from Escherichia coli strain B was purified on a p-aminobenzylpenicillin-Sepharose column. This one-step chromatography followed by an (NH4)2SO4 precipitation yielded an enzyme purified 1200-fold and some of its properties are reported. 2. The pure D-alanine carboxypeptidase was devoid of D-alanine carboxypeptidase II activity and migrated as a single protein band on analytical disc gel electrophoresis. 3. Triton X-100 in the purification procedure is an absolute requirement for obtaining a stable enzyme. 4. The enzymic activity of D-alanine carboxypeptidase was greatly affected in solution of high salt concentrations and varied somewhat with the nature of the cation tested.     

Application of standard addition for the determination of carboxypeptidase activity in Actinomucor elegans bran koji

Leucine carboxypeptidase (EC 3.4.16) activity in Actinomucor elegans bran koji was investigated via absorbance at 507 nm after stained by Cd-nihydrin solution, with calibration curve A, which was made by a set of known concentration standard leucine, calibration B, which was made by three sets of known concentration standard leucine solutions with the addition of three concentrations inactive crude enzyme extract, and calibration C, which was made by three sets of known concentration standard leucine solutions with the addition of three concentrations crude enzyme extract. The results indicated that application of pure amino acid standard curve was not a suitable way to determine carboxypeptidase in complicate mixture, and it probably led to overestimated carboxypeptidase activity. It was found that addition of crude exact into pure amino acid standard curve had a significant difference from pure amino acid standard curve method (p < 0.05). There was no significant enzyme activity difference (p > 0.05) between addition of active crude exact and addition of inactive crude kind, when the proper dilute multiple was used. It was concluded that the addition of crude enzyme extract to the calibration was needed to eliminate the interference of free amino acids and related compounds presented in crude enzyme extract.     

Purification of a carboxypeptidase B-like enzyme from the starfish Dermasterias imbricata.

A carboxypeptidase B-like enzyme which catalyses the hydrolysis of synthetic esters of lysine and arginine has been isolated from the starfish Dermasterias imbricata. This carboxypeptidase B-like enzyme has a molecular weight of approximately 34 000 and shares this and other properties with bovine pancreatic carboxypeptidase B. The existence of zymogen for this activity in the pyloric caeca of the starfish is demonstrated. This zymogen has a molecular weight near 40 000 and appears to be analogous to other monomeric procarboxypeptidases B. The zymogen possesses an intrinsic low-level activity toward synthetic substrates of carboxypeptidase B and is activated by trypsin.     

Purification and characterization of a thermostable carboxypeptidase (carboxypeptidase Taq) from Thermus aquaticus YT-1.

A thermostable carboxypeptidase, which we named carboxypeptidase Taq, was purified from Thermus aquaticus YT-1 and characterized. The molecular weight of the enzyme was estimated to be about 56,000 and 58,000 on SDS-polyacrylamide gel electrophoresis and gel filtration, respectively, indicating that the enzyme has a monomeric structure. The optimum pH of the enzyme was 8.0, and the optimum temperature for the reaction was 80 degrees C. The enzyme activity was dependent on cobalt ion and was inhibited by metal-chelating reagents, indicating that the enzyme is a metalloenzyme. The enzyme had high thermostability independent of cobalt ion; about 90% of its activity remained even after treatment at 80 degrees C for 5 h. The enzyme showed broad substrate specificity, although proline at the C-terminus of peptides was not cleaved. The enzyme released amino acids sequentially from the C-terminus.     

Tubulin carboxypeptidase assay based on the action of the enzyme on [14C]tyrosinated tubulin bound to nitrocellulose membrane

We have developed a method for the determination of tubulin carboxypeptidase activity which is based on the action of the enzyme on the substrate, [14C]tyrosinated tubulin, previously adsorbed on nitrocellulose membrane. In addition to being two to three times more sensitive than previous carboxypeptidase assays, this method allows the determination of dilute enzyme preparations even containing high salt (inhibitory) concentrations. This is a valuable property specially under circumstances in which numerous high salt-containing fractions with scarce activity should be analyzed (for example after certain chromatographic stages during enzyme purification). Our method is simpler, less time-consuming, and suitable for multiple, simultaneous determinations and the substrate bound to nitrocellulose can be stored for several months without significant alteration of its properties. Peptidases other than tubulin carboxypeptidase can act on [14C]tyrosinated tubulin bound to nitrocellulose, solubilizing radioactive compounds, suggesting the eventual applicability of this method to assay proteases in general. Other features and advantages of the assay as well as its limitations are discussed.     

Acid Carboxypeptidases in Grains and Leaves of Wheat, Triticum aestivum L

Extracts of resting and germinating (3 days at 20°C) wheat (Triticum aestivum L. cv Ruso) grains rapidly hydrolyzed various benzyloxycarbonyldipeptides (Z-dipeptides) at pH 4 to 6. Similar activities were present in extracts of mature flag leaves. Fractionation by chromatography on CM-cellulose and on Sephadex G-200 showed that the activities in germinating grains were due to five acid carboxypeptidases with different and complementary substrate specificities. The wheat enzymes appeared to correspond to the five acid carboxypeptidases present in germinating barley (L Mikola 1983 Biochim Biophys Acta 747: 241-252). The enzymes were designated wheat carboxypeptidases I to V and their best or most characteristic substrates and approximate molecular weights were: I, Z-Phe-Ala, 120,000; II, Z-Ala-Arg, 120,000; III, Z-Ala-Phe, 40,000; IV, Z-Pro-Ala, 165,000; and V, Z-Pro-Ala, 150,000. Resting grains contained carboxypeptidase II as a series of three isoenzymes and low activities of carboxypeptidases IV and V. During germination the activity of carboxypeptidase II decreased, those of carboxypeptidases IV and V increased, and high activities of carboxypeptidases I and III appeared. The flag leaves contained high activity of carboxypeptidase I and lower activities of carboxypeptidases II, IV, and V, whereas carboxypeptidase III was absent.     

Novel carboxypeptidase for processing of animal nerve tissue enkephalins

New carboxypeptidase which catalyzes the C-terminal arginine splitting from hexapeptide (an enkephalin precursor) Tyr-Gly-Gly-Phe-Met-Arg is revealed in the cat nerve tissue. The enzyme is activated by cobalt ions, the pH action optimum being 7.6. A relatively high activity of carboxypeptidase in the hypothalamus, midbrain and medulla oblongata permits supposing that it is the key enzyme of the enkephalin processing in areas of the limbic brain system.     

Isolation and characterization of a basic carboxypeptidase from human seminal plasma

A carboxypeptidase which cleaves the C-terminal arginine or lysine from peptides was purified by a two-step procedure; gel filtration on Sephacryl S-300 and affinity chromatography on arginine-Sepharose. The activity increased 280% after the first step, indicating the removal of an inhibitor from the crude starting material. The activity in the crude seminal plasma eluted from the Sephacryl S-300 column with an apparent Mr 98,000 and after purification with an Mr 67,000, indicating that it binds to another protein in the crude seminal plasma. When analyzed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, a single band at Mr 53,000 was seen which was converted to two smaller bands (Mr 32,000 and/or 26,000) after reduction. The seminal plasma carboxypeptidase has a neutral pH optimum, is inhibited by o-phenanthroline and by the inhibitor of carboxypeptidase B-type enzymes, 2-mercaptomethyl-3-guanidinoethylthiopropanoic acid, and can be activated by cobalt. The purified enzyme has a high specific activity (67.8 mumol/min/mg) with the ester substrate benzoyl (Bz)-Gly-argininic acid and readily cleaves Bz-Ala-Lys, Bz-Gly-Arg, and Bz-Gly-Lys. It also hydrolyzes biologically active peptides such as bradykinin (Km = 6 microM, kcat = 43 min-1), Arg6-Met5-enkephalin (Km = 103 microM, kcat = 438 min-1), and Lys6-Met5-enkephalin (Km = 848 microM, kcat = 449 min-1). The seminal plasma carboxypeptidase did not cross-react with antiserum to human plasma carboxypeptidase N; other properties distinguish it from the blood plasma enzyme as well as from pancreatic carboxypeptidase B and granular, acid carboxypeptidase H (enkephalin convertase). The carboxypeptidase could be involved in the control of fertility by activating or inactivating peptide hormones in the seminal plasma. In addition it could contribute to the degradation of basic proteins during semen liquefaction.     

The membrane-bound basic carboxypeptidase from hog intestinal mucosa(1).

The carboxypeptidase activity occurring in hog intestinal mucosa is apparently due to two distinct enzymes which may be responsible for the release of basic COOH-terminal amino acids from short peptides. The plasma membrane-bound carboxypeptidase activity which occurs at neutral optimum pH levels was found to be enhanced by CoCl(2) and inhibited by guanidinoethylmercaptosuccinic acid, o-phenanthroline, ethylenediamine tetraacetic acid and cadmium acetate; whereas the soluble carboxypeptidase activity which occurs at an optimum pH level of 5.0 was not activated by CoCl(2) and only slightly inhibited by o-phenanthroline, ethylenediamine tetraacetic acid, NiCl(2) and CdCl(2). The latter activity was presumably due to lysosomal cathepsin B, which is known to be present in the soluble fraction of hog intestinal mucosa. Although the membrane-bound enzyme was evenly distributed along the small intestine, it was not anchored in the phospholipidic bilayer via a glycosyl-phosphatidylinositol moiety, as carboxypeptidase M from human placenta is. The enzyme was not solubilized by phosphatidylinositol-specific phospholipase C, but was solubilized to practically the same extent by several detergents. The purified trypsin-solubilized form is a glycoprotein with a molecular mass of 200 kDa, as determined by performing SDS-PAGE and gel filtration, which differs considerably from the molecular mass of human placental carboxypeptidase M (62 kDa). It was found to cleave lysyl bonds more rapidly than arginyl bonds, which is not so in the case of carboxypeptidase M, and immunoblotting analysis provided further evidence that hog intestinal and human placental membrane-bound carboxypeptidases do not bear much resemblance to each other. Since the latter enzyme has been called carboxypeptidase M, it is suggested that the former might be carboxypeptidase D, the recently described new member of the carboxypeptide B-type family.     

Presence of an endogenous inhibitor of dipeptidyl carboxypeptidase in rat brain

Whole rat brain dipeptidyl carboxypeptidase (E.C. 3.4.15.1) was heterogeneously distributed among 10 brain regions studied. In corpus striatum, the enzyme was enriched in the P₂ pellet, a subfraction high in myelin and nerve terminals. Using [³H]benzoylphenylalanyl-alanyl-proline as a substrate, dipeptidyl carboxypeptidase manifested a different anion requirement than has been reported for other substrates. Endogenous inhibitors of the enzyme were found in corpus striatum and could be removed by dialysis or Sephadex G25 chromatography. Boiled striatal cytosol inhibited membrane-bound enzyme activity in a concentration-dependent manner and confirmed the presence of an endogenous soluble, heat-stable inhibitor in rat brain. The inhibitor apparently could be degraded by a component of the striatal P₂ membranes. The inhibitor was present in all 10 brain regions studied and its levels did not appear to be related to the specific activity of dipeptidyl carboxypeptidase. Potential mechanisms for biological regulation of dipeptidyl carboxypeptidase activity are discussed in light of the above findings.     

GA3-Modulated multiple forms of monophenolase in wheat seed

Multiple forms of monophenolase in wheat half-seeds were separated by molecular sieving on Sephadex G-200. A single molecular form of monophenolase was observed in control, while two multiple forms were present in GA₃-treated wheat half-seeds. A high MW (200 000 or above) multiple form (activity peak I) which eluted soon after the void volume was exclusively present in GA₃-treated half-seeds. The second activity peak (peak II) was a low MW (45 000) multiple form and its elution profile coincided in control and GA₃-treated wheat half-seeds. Both the multiple forms of monophenolase in GA₃-treated wheat half-seeds showed a pH optimum at 9.0, while the optimum enzyme activity of the control molecular form (peak II) was at pH 7.0. This indicated that the treatment of wheat half-seeds with GA₃ brought about a structural modification in monophenolase. The in vitro addition of trypsin enhanced the control of the molecular form of monophenolase but this treatment failed to alter the activity of multiple forms in GA₃-treated half-seeds. This differential response of monophenolase towards trypsin could be ascribed to a conformational change of the enzyme in hormone-treated half-seeds. Brief exposure of the enzyme preparation to urea (6 M) brought about an irreversible activation of monophenolase both in control and GA₃-treated wheat half-seeds.