Purification of Two Dipeptidyl Aminopeptidases II from Rat Brain and Their Action on Proline-Containing Neuropeptides

From the soluble and membrane fractions of rat brain homogenate, two enzymes that liberate dipeptides of the type Xaa-Pro from chromogenic substrates were purified to homogeneity. The two isolated dipeptidyl peptidases had similar molecular and catalytic properties: For the native proteins, molecular weights of 110,000 were estimated; for the denatured proteins, the estimate was 52,500. Whereas the soluble peptidase yielded one band of pI 4.2 after analytical isoelectric focusing, two additional enzymatic active bands were detected between pI 4.2 and 4.3 for the membrane-associated form. As judged from identical patterns after neuraminidase treatment, both peptidases contained no sialic acid. A pH optimum of 5.5 was estimated for the hydrolysis of Gly-Pro- and Arg-Pro-nitroanilide. Substrates with alanine instead of proline in the penultimate position were hydrolyzed at comparable rates. Acidic amino acids in the ultimate N-terminal position of the substrates reduced the activities of the peptidases 100-fold as compared with corresponding substrates with unblocked neutral or, especially, basic termini. The action of the dipeptidyl peptidase on several peptides with N-terminal Xaa-Pro sequences was investigated. Tripeptides were rapidly hydrolyzed, but the activities considerably decreased with increasing chain length of the peptides. Although the tetrapeptide substance P 1-4 was still a good substrate, the activities detected for the sequential liberation of Xaa-Pro dipeptides from substance P itself or casomorphin were considerably lower. Longer peptides were not cleaved. The peptidases hydrolyzed Pro-Pro bonds, e.g., in bradykinin 1-3 or 1-5 fragments, but bradykinin itself was resistant. The enzymes were inhibited by serine protease inhibitors, like diisopropyl fluorophosphate or phenylmethylsulfonyl fluoride, and by high salt concentrations but not by the aminopeptidase inhibitors bacitracin and bestatin. Based on the molecular and catalytic properties, both enzymes can be classified as species of dipeptidyl peptidase II (EC 3.4.14.2) rather than IV (EC 3.4.14.5). However, some catalytic properties differentiate the brain enzyme from forms of dipeptidyl peptidase II of other sources.     

Effect of inhibitors and cations on the proteolytic activity of Bacillus mesentericus

The effect of some inhibitors and bivalent metal cations (Mn2+, Ca2+, Fe2+, Zn2+, Mg2+, Co2+ and Cu2+) on the proteolytic activity of two Bacillus mesentericus strains (strain 8 and strain 64 M-variant) was comparatively studied. The both enzymes were shown to be serine proteinases, but the proteinase of strain 64 was also a metal-dependent enzyme. Metal ions exerted no essential effect on the proteinase of strain 8. Ca2+ and Mg2+ ions stimulated the proteinase activity of strain 64 whereas Fe2+ and Zn2+ ions inhibited it in the case of three substrates. Therefore, the two proteinases are different.     

The isolation and some properties of dipeptidyl peptidases II and III from porcine spleen

1. Dipeptidyl peptidases (DPP) II and III from porcine spleen have been purified to homogeneity as assessed by disc gel electrophoresis, HPLC and chromatofocusing. 2. The enzyme are both inhibited by diisopropylfluorophosphate suggesting that the active site contains an essential serine residue, but they are also inhibited by a variety of other reagents. 3. The pI of DPP II is 4.8, that of DPP III, 4.0. 4. The former enzyme has a molecular weight of 97,000, the latter 66,000 and both are glycoproteins. 5. The enzymes are compared with those from other sources.     

Studies on the enzymology of purified preparations of brush border from rabbit kidney

1. A method for the preparation of brush border from rabbit kidneys is described. Contamination by other organelles was checked by electron microscopy and by the assay of marker enzymes and was low. 2. Seven enzymes, all hydrolases, were substantially enriched in the brush-border preparation and are considered to be primarily located in this structure. They are: alkaline phosphatase, maltase, trehalase, aminopeptidase A, aminopeptidase M, gamma-glutamyl transpeptidase and a neutral peptidase assayed by its ability to hydrolyse [(125)I]iodoinsulin B chain. 3. Adenosine triphosphatases were also present in the preparation, but showed lower enrichments. 4. Alkaline phosphatase was the most active phosphatase present in the preparation. The weak hydrolysis of AMP may well have been due to this enzyme rather than a specific 5'-nucleotidase. 5. The two disaccharidases in brush border were distinguished by the relative heat-stability of trehalase compared with that of maltase. 6. The individuality of the four peptidases was established by several means. The neutral peptidase and aminopeptidase M, both of which can attack insulin B chain, differed not only in response to inhibitors and activators but also in the inhibitory effect of a guinea-pig antiserum raised to rabbit aminopeptidase M. This antiserum inhibited both the purified and the brush-border activities of aminopeptidase M. The neutral peptidase and gamma-glutamyl transpeptidase were unaffected but aminopeptidase A was weakly inhibited. The characteristic responses to Ca(2+) and serine with borate served to distinguish aminopeptidase A and gamma-glutamyl transpeptidase from other peptidases. 7. No dipeptidases, tripeptidases or carboxypeptidases were identified as brush-border enzymes. 8. Incubation of brush border with papain released almost all the aminopeptidase M activity but only about half the activities of maltase, gamma-glutamyl transpeptidase and aminopeptidase A. No release of alkaline phosphatase, trehalase or the neutral peptidase was observed.     

Structural and kinetic bases for the metal preference of the M18 aminopeptidase from Pseudomonas aeruginosa

The peptidases in clan MH are known as cocatalytic zinc peptidases that have two zinc ions in the active site, but their metal preference has not been rigorously investigated. In this study, the molecular basis for metal preference is provided from the structural and biochemical analyses. Kinetic studies of Pseudomonas aeruginosa aspartyl aminopeptidase (PaAP) which belongs to peptidase family M18 in clan MH revealed that its peptidase activity is dependent on Co²⁺ rather than Zn²⁺: the k_cat (s⁻¹) values of PaAP were 0.006, 5.10 and 0.43 in no-metal, Co²⁺, and Zn²⁺ conditions, respectively. Consistently, addition of low concentrations of Co²⁺ to PaAP previously saturated with Zn²⁺ greatly enhanced the enzymatic activity, suggesting that Co²⁺ may be the physiologically relevant cocatalytic metal ion of PaAP. The crystal structures of PaAP complexes with Co²⁺ or Zn²⁺ commonly showed two metal ions in the active site coordinated with three conserved residues and a bicarbonate ion in a tetragonal geometry. However, Co²⁺- and Zn²⁺-bound structures showed no noticeable alterations relevant to differential effects of metal species, except the relative orientation of Glu-265, a general base in the active site. The characterization of mutant PaAP revealed that the first metal binding site is primarily responsible for metal preference. Similar to PaAP, Streptococcus pneumonia glutamyl aminopeptidase (SpGP), belonging to aminopeptidase family M42 in clan MH, also showed requirement for Co²⁺ for maximum activity. These results proposed that clan MH peptidases might be a cocatalytic cobalt peptidase rather than a zinc-dependent peptidase.     

Isolation and properties of serine proteinase from Aspergillus oryzae

A serine proteinase having an activity optimum at pH 6.7-8.2 has been isolated from amylorisine P-10x (a mixture of Aspergillus oryzae enzymes) by chromatography on DEAE-Sephadex A-50 and bacitracin Sepharose 4B. The proteinase is fully inactivated by phenylmethylsulfonylfluoride and diisopropylfluorophosphonate, the specific inhibitors of the enzyme, and has a pI at pH 7.5. The molecular mass of serine proteinase is 30000 Da; its amino acid composition appears as: Met2, Asp33, Thr18, Ser29, Glu21, Pro9, Glu32, Ala38, Val24, Ile16, Leu15, Tyr8, Phe8, His8, Lys18, Arg4, Trp6. The N-terminal sequence of the serine proteinase: Gly-Leu-Thr-Thr-Gln-Lys-Ser-Ala-Pro-Trp-Gly-Leu-Gly-Ser-Ile-Ser-Xaa-Lys- Gly-Gln-Gln-Ser-Thr-Asp-Tyr-Ile-Tyr, which coincides practically completely with the corresponding sequence of alkaline proteinase of A. oryzae, ATCC20386, has been determined. Similar to subtilisin, the enzyme catalyzes the condensation of leucine and alanine p-nitroanilides with N-benzyloxycarbonyl-alanyl-alanine and glycyl-alanine methyl esters.     

Inhibition of human granulocyte elastase and kininogenase

Using an inhibitory analysis, the different enzymatic nature of kininogenase and elastase activities in serine proteinase fractions (pI 8.3-10.75) isolated from human granulocyte lysates by isoelectrofocusing was demonstrated. The thermo- and acid-stable serine proteinase inhibitor from rabbit serum was shown to completely inhibit the kininogenase activity in these fractions but to have no inhibiting action on the elastase activity. On the contrast, the specific granulocyte elastase inhibitor, N-3-carbomethoxypropanoyl-L-alanyl-L-alanyl-L-prolyl-L-valyl-chloromethylketone , inhibits granulocyte elastase and does not inhibit the kininogenase activity in lysate fractions. The efficiency of granulocyte elastase inhibition by this chloromethylketone is evaluated by the kinetic parameters k3, Ki. The values of k3/Ki for granulocyte elastase forms with pI of 10.75, 8.9 and 8.0 are 1430, 670 and 360 M-1 S-1, respectively and show effective inhibition of the three forms by this inhibitor. Based on the different degree of inhibition of the three elastase forms by chloromethylketone inhibitor the existence of the family of elastaselike enzymes in human granulocytes is postulated.     

Digestive proteolysis in the Colorado potato beetle,Leptinotarsa decemlineata: Activity-based profiling and imaging of a multipeptidase network

The Colorado potato beetle (CPB), Leptinotarsa decemlineata, is a major pest of potato plants, and its digestive system is a promising target for development of pest control strategies. This work focuses on functional proteomic analysis of the digestive proteolytic enzymes expressed in the CPB gut. We identified a set of peptidases using imaging with specific activity-based probes and activity profiling with selective substrates and inhibitors. The secreted luminal peptidases were classified as: (i) endopeptidases of cathepsin D, cathepsin L, and trypsin types and (ii) exopeptidases with aminopeptidase (cathepsin H), carboxypeptidase (serine carboxypeptidase, prolyl carboxypeptidase), and carboxydipeptidase (cathepsin B) activities. The proteolytic arsenal also includes non-luminal peptidases with prolyl oligopeptidase and metalloaminopeptidase activities. Our results indicate that the CPB gut employs a multienzyme network of peptidases with complementary specificities to efficiently degrade ingested proteins. This proteolytic system functions in both CPB larvae and adults and is controlled mainly by cysteine and aspartic peptidases and supported by serine and metallopeptidases. The component enzymes identified here are potential targets for inhibitors with tailored specificities that could be engineered into potato plants to confer resistance to CPB.     

Enzymes secreted by filamentous fungi: regulation of secretion and purification of an extracellular protease of Trichoderma harzianum

Extracellular proteases secreted by the filamentous fungus Trichoderma harzianum have been identified. A proteinase active towards Z-Ala-Ala-Leu-pNa--the substrate of subtilisin-like proteases--dominated in the culture medium. This proteinase is synthesized de novo in response to addition of a protein substrate to the medium. Changing the carbohydrate in the culture medium changed the quantitative and qualitative spectrum of secreted enzymes. The most active extracellular proteinase of Trichoderma harzianum was purified 322-foldfrom the culture medium and obtained with a yield of 7.2%. The molecular mass of this proteinase is 73 kD and its pI is 5.35. The isolated enzyme has two distinct activity maxima, at pH 7.5 and 10.0, and is stable in the pH range 6.0-11.0. The temperature optimum for enzyme activity is 40 degrees C at pH 8. 0. The proteinase is stable up to 45-50 degrees C (depending on the substrate used). Calcium ions stabilized the enzyme at 55-60 degrees C. According to data on the study of functional groups of the active center and substrate specificity, the enzyme isolated from the culture medium of Trichoderma harzianum is a subtilisin-like serine proteinase.     

Enzymes in the mucosal layer of the small intestine

It has been demonstrated by the methods of histochemical and biochemical examination of the activity of the enzymes that the mucus layer covering the small intestinal wall contains active enzymes (alkaline phosphatase, leucin aminopeptidase IV, saccharase, lactase) and pancreatic enzymes (alpha-amylase and trypsin). Emphasis is laid on the enrichment of the mucus layer with pancreatic enzymes as compared with small intestinal juice. A hypothesis has been advanced according to which the mucus layer undergoes degradation of polymeric and oligomeric substrates, which plays a physiological part in the digestion of nutritive substances and protection of the internal medium against immunoactive biopolymers. The digestion occurring in the mucus layer is proposed to be called mucus digestion.     

Comparison of two cysteine endopeptidases from latices of Morrenia brachystephana Griseb. and Morrenia odorata (Hook et Arn.) Lindley (Asclepiadaceae)

The properties of morrenain b II, a proteinase isolated from the latex of Morrenia brachystephana, were compared with those of morrenain o II, a proteinase obtained from the latex of Morrenia odorata. Both peptidases were purified to homogeneity by acetone precipitation followed by cation exchange chromatography. The enzymes have pI values higher than 9.3 and similar molecular masses (close to 26 kDa) as determined by SDS-PAGE. They display maximum proteolytic activity within an alkaline pH range, and also exhibit esterolytic activity. The N-terminal sequences of morrenain o II and morrenain b II show a high degree of homology between each other and to other cysteine plant proteinases.     

Distribution of chymoelastases and trypsin-like enzymes in five species of entomopathogenic deuteromycetes

Nine isolates of the entomopathogenic deuteromycetes Metarhizium anisopliae, Beauveria bassiana, Verticillium lecanii, Nomuraea rileyi, and Aschersonia aleyrodis produced basic (pI greater than 7.0) chymoelastases that possessed extended binding sites, comprising at least four or five subsites, with preference for hydrophobic residues at the primary binding site. Most isolates also produced additional acidic enzymes with similar specificities against ester and amide substrates but which lacked activity against elastin. Both acidic and basic enzymes degraded high protein azure or locust cuticle and, as shown by inhibition studies, possessed essential serine and histidine residues in the active site. In spite of similarities in catalytic properties antibodies generated against a Metarhizium chymoelastase cross-reacted only with enzymes from two (out of four) Metarhizium isolates; enzymes from all other isolates did not cross-react. Two isolates of Metarhizium produced a third class of protease which degraded Bz-AA-AA-Arg-NA substrates (AA, various amino acids) and hide protein azure. Analogous peptidases were produced by other isolates but they were specific for Bz-Phe-Val-Arg-NA and showed less sensitivity to trypsin inhibitors. The possible significance to pathology of the presence of diverse yet similar protease forms in five genera of entomopathogens is discussed.     

The isolation and characterization of copper-resistant mutants ofAspergillus nidulans

The presence of aminopeptidases in the cytoplasm, in the cell wall, and in the cytoplasmic membrane fractions ofStreptococcus sanguis 903 was demonstrated by isoelectric focusing in combination with enzyme-staining procedures. The cytoplasm and the cell wall both had two aminopeptidases (pI 4.25 and 4.3) with broad substrate specificities and one enzyme (pI 4.2) specific for arginine substrates. The former enzymes were both stimulated by Co²⁺ ions; the latter enzyme had no metal cofactor. The cytoplasmic membrane aminopeptidase (pI 4.65) was arginine specific and was not stimulated by metal ions.     

The proteolytic system of Lactobacillus sanfrancisco CB1: purification and characterization of a proteinase, a dipeptidase, and an aminopeptidase.

A cell envelope 57-kDa proteinase, a cytoplasmic 65-kDa dipeptidase, and a 75-kDa aminopeptidase were purified from Lactobacillus sanfrancisco CB1 sourdough lactic acid bacterium by sequential fast protein liquid chromatography steps. All of the enzymes are monomers. The proteinase was most active at pH 7.0 and 40 degrees C, while aminopeptidase and dipeptidase had optima at pH 7.5 and 30 to 35 degrees C. Relatively high activities were observed at the pH and temperature of the sourdough fermentation. The proteinase is a serine enzyme. Urea-polyacrylamide gel electrophoresis of digest of alpha s1- and beta-caseins showed differences in the pattern of peptides released by the purified proteinase and those produced by crude preparations of the cell envelope proteinases of Lactobacillus delbrueckii subsp. bulgaricus B397 and Lactococcus lactis subsp. lactis SK11. Reversed-phase fast protein liquid chromatography of gliadin digests showed a more-complex peptide pattern produced by the proteinase of Lactobacillus sanfrancisco CB1. The dipeptidase is a metalloenzyme with high affinity for dipeptides containing hydrophobic amino acids but had no activity on tripeptides or larger peptides. The aminopeptidase was also inhibited by metal-chelating agents, and showed a broad N-terminal hydrolytic activity including di- and tripeptides. Km values of 0.70 and 0.44 mM were determined for the dipeptidase on Leu-Leu and the aminopeptidase on Leu-p-nitroanilide, respectively.     

Degradation of alpha and beta neo-endorphin by rat brain membrane peptidases

Fractionation of Triton-solubilized rat brain membranes on diethylaminoethyl-cellulose resolves two peptidases which hydrolyze beta-neo-endorphin. One of these peptidases was identified as Angiotensin Converting Enzyme by (a) its sensitivity to inhibition by the specific inhibitors MK422 and captopril, (b) by the identification of reaction products, and (c) by comparison to authentic angiotensin converting enzyme. In contrast, alpha-neo-endorphin hydrolysis by angiotensin converting enzyme could not be detected. The second enzyme active on beta-neo-endorphin was identified as an aminopeptidase. This aminopeptidase is identical to the previously described enkephalin-degrading aminopeptidase. The possible involvement of these enzymes in the metabolism of opioid peptides is discussed.     

Proteins of the kidney microvillar membrane. Biosynthesis of endopeptidase-24.11, dipeptidylpeptidase IV and aminopeptidases N and A in pig kidney slices.

An organ culture employing slices of renal-cortex tissue from piglets of the Yucatan strain was used to study the biogenesis of four microvillar peptidases: endopeptidase-24.11 (EC 3.4.24.11), dipeptidyl peptidase IV (EC 3.4.14.5), aminopeptidase N (EC 3.4.11.2) and aminopeptidase A (EC 3.4.11.7). The viability of the culture system was confirmed by the preservation of ultrastructural integrity and by an unchanged uptake of [3H]alanine into cells during the period of the experiments. After labelling with [35S]methionine, treatment with Mg2+ yielded two fractions, one containing microvilli and another, the Mg2+ pellet, containing intracellular and basolateral membranes. The labelled forms of the peptidases, isolated by immunoprecipitation, were analysed by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and fluorography. The Mg2+ pellet contained the earliest detectable forms of the enzymes. In each case, a polypeptide of lower Mr than the mature form and sensitive to treatment with endo-beta-N-acetylglucosaminidase H was the first form to be detected. These high-mannose forms were followed, about 30 min after the pulse, by a complex glycosylated form of higher Mr. Only the latter form was observed in microvilli and then only after 90 min of the chase period. A quantitative study of dipeptidyl peptidase IV showed that the forms observed in the Mg2+ pellet were precursors of those in the microvillar fraction. No labelled forms were observed in the cytosol. All four peptidases were thus synthesized within membrane compartments and glycosylated in two steps before assembly in microvilli.     

Digestive and transport enzymes of the small intestine under the action of low-mineralized water "Naftusya" and its components

Mineral water Naftusya and its components: macrosalt analog and bitumen fraction have been studied in vitro for their effect on enzymes of the mucous small intestine membrane: M2+ and Na+, K+-ATPase, alpha-amylase, proteinase and leucine aminopeptidase. It is shown that certain components of mineral water are able to change activity of some enzymes. Transport Na+, K+-ATPase proved to be the most sensitive to the action of studied factors. Mineral water and bitumen fraction induced an increase of the enzyme activity by 23, 20 and 45%, respectively. Mineral water and its salt analog induced inhibition of leucine aminopeptidase: its activity decreased by 16 and 15%, respectively. Digestive enzymes: alpha-amylase and proteinase are resistant to the action of mineral water and its components.     

Identity of human granulocyte kininogenase and plasminogen activator

Preparative isoelectrofocusing used for fractionating the whole human granulocyte lysate serine proteinases revealed multiple forms of elastase, cathepsin G, kininogenase, human granulocytes plasminogen activator (pI 6.2-10.75). Kinetic characteristics of their substrate specificity were also obtained. It is shown that serine kininogenase of human granulocytes is not identical with elastase as it had been supposed before, it is of trypsin-like nature and is identical with plasminogen activator of these cells. The results obtained reveal new aspects in comprehension of the role of the granulocyte plasminogen activator in development of the inflammatory reaction. It is found that acid-stable proteinase inhibitors formed from blood plasma inter-alpha-inhibitor of trypsin, have an inhibitory effect on the granulocyte plasminogen activator, that supports an assumption on the anti-inflammatory function of these inhibitors.     

Procollagenase activator produced by rabbit uterine cervical fibroblasts.

Culture medium from rabbit uterine cervical fibroblasts contained a procollagenase and a neutral proproteinase which acts as a procollagenase activator. These two proenzymes have been purified by a combination of ion-exchange, affinity and gel chromatographies. The purified neutral proproteinase showed Mr 60,000 with sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. This neutral proproteinase was activated by trypsin, 4-aminophenylmercuric acetate (APMA) and plasmin, and the active species of the proteinase had Mr 53,000 when activated by APMA; kallikrein and urokinase did not activate this proproteinase. The purified neutral proteinase was inhibited by EDTA, 1,10-phenanthroline and rabbit plasma, but not by serine proteinase inhibitors, suggesting that this proteinase is a metal-dependent proteinase. The purified enzyme could also degrade gelatin, casein, proteoglycan and type IV procollagen. The purified procollagenase had Mr 55,000 and was activated by trypsin, APMA and the active neutral proteinase. These activations were accompanied by decrease in Mr, and the activated species had an Mr which was approx. 10,000 less than that of the procollagenase. In particular, procollagenase activation with neutral proteinase depended on incubation time and proteolytic activity of proteinase. These results indicate that activation of procollagenase by the rabbit uterine neutral proteinase is related to limited proteolysis in the procollagenase molecule.