Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
 9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the cellular localization of glandular kallikrein in the human pancreas, immunohistochemical studies were performed with a monospecific antibody against the antigenically identical urinary kallikrein (urokallikrein). The localization of glandular pancreatic kallikrein to the beta cells of the islets was the same as that of insulin in normal human pancreas and in two islet-cell tumors. When beta cells were lacking in islet-cell tumors or in the pancreas of a patient with juvenile-onset diabetes, kallikrein antigen was not detectable. Anti-urokallikrein absorbed with purified urinary or pancreatic kallikrein no longer identified a pancreatic antigen, whereas absorption with insulin had no effect. The beta-cell localization of human pancreatic kallikrein, an endopeptidase that, in concert with carboxypeptidase B, converts bovine proinsulin to a polypeptide with the electrophoretic mobility of insulin, suggests that pancreatic kallikrein may be involved in the physiologic activation of proinsulin.
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PMID:Identification of human glandular kallikrein in the beta cell of the pancreas. 22 May 34

A pancreatic endopeptidase localized to the beta-cells of the pancreas by immunohistochemical techniques has been purified to homogeneity by following its functional and antigenic characteristics as a glandular kallikrein (EC 3.4.21.8). The enzyme gave a single stained band on alkaline disc gel electrophoresis which corresponded in location with the kinin-generating activity eluted from a replicate gel, was of 54,000 molecular weight by gel filtration, was devoid of caseinolytic activity, elicited a monospecific antiserum in a rabbit, and gave a line of complete identity with a single constituent in pancreatic extract, crude urine, and purified urokallikrein when analyzed with monospecific antibody to urokallikrein. The pancreatic glandular kallikrein generated three cleavage products of increasing anodal mobility from bovine and porcine proinsulin, and the presence of pancreatic kininase or bovine carboxypeptidase B increased the quantity of these products. Although the conversion products did not correspond to diarginyl- and monoarginylinsulin, the product of intermediate mobility was also obtained when proinsulin was treated with a low concentration of trypsin in the presence of kininase. The most rapidly migrating product did correspond to desalanylinsulin in the reference standard. Kininase alone had no action on proinsulin, and aprotinin prevented cleavage by kallikrein alone or in combination with kininase. Although the chemical structure of the proinsulin cleavage products has not been established, human pancreatic kallikrein is considered a putative activator of proinsulin because of its location in the beta-cell, its preferential action on proinsulin and kininogen as compared to azocasein, and its capacity to generate insulin intermediate products that are further modified by human pancreatic kininase or bovine carboxypeptidase B.
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PMID:Sequential cleavage of proinsulin by human pancreatic kallikrein and a human pancreatic kininase. 38 42

All four components of the kallikrein-kinin system--kininogens, tissue kallikreins, kinins, and kininases--have been found in human male genital secretions. Kinins are continuously released from seminal plasma kininogens through limited proteolysis by kininogenases like tissue kallikrein from prostate and sperm acrosin. Kinins are the terminal effectors of the kallikrein-kinin system and increase sperm motility and sperm metabolism at nanomolar concentrations. Recent investigations indicate that these effects are possibly mediated by a specific sperm membrane integrated bradykinin receptor, subtype B2. The two major kininase that are present in seminal plasma are kininase II and neutral metallo-endopeptidase. Kininase II, which is identical with angiotensin-converting enzyme, is also involved in the renin-angiotensin system as it converts angiotensin I into angiotensin II and thus is the connecting enzyme of both systems. Apart from the observed effects of kinins on sperm motility, the kallikrein-kinin system is thought to be involved in the regulation of spermatogenic functions of the testis: in the rat, kallikrein activates Sertoli cell function, increases the relative number of spermatocytes and the [3H] thymidine incorporation of testicular tissue, enhances glucose-intake, and increases testicular blood flow. Clinical trials showed that systemic administration of kallikrein may be particularly useful for treatment of infertile men suffering from asthenozoospermia and/or oligozoospermia. During kallikrein therapy, the number of spermatozoa and both quantitative and qualitative sperm motility increased, and a significant improvement of the conception rate was achieved. An increased sperm number was also observed after application of the specific kininase II inhibitor captopril.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Possible effects of the kallikrein-kinin system on male reproductive functions. 131 46

Atrial natriuretic peptide (ANP) is a 28-amino-acid hormone involved in the regulation of fluid balance. In circulation, the proteolytic inactivation of ANP has been demonstrated to involve both membrane metalloendopeptidase and an aprotonin-sensitive activity, probably corresponding to kallikrein [Vanneste, Y., Pauwels, S., Lambotte, L., Michel, A., Dimaline, R. & Deschodt-Lanckman, M. (1990) Biochem. J. 269, 801-806]. In the present study, we focused on the aprotinin-sensitive pathway of ANP metabolism. In order to identify the cleavage sites recognized by kallikrein within the sequence of the hormone, tissue kallikrein was purified to homogeneity from human urine and the degradation of human ANP by the enzyme preparation was studied. Our results demonstrate that both intact and Cys7-Phe8-cleaved ANP, the initial metabolite produced in circulation by the metallo-endopeptidase, are substrates in vitro for purified tissue kallikrein. However, the Cys-Phe-cleaved peptide was degraded approximately fourfold faster than the intact hormone by the purified enzyme. The first degradation step of ANP by tissue kallikrein involves two cleavages occurring at the bonds Arg3-Arg4 and Gly16-Ala17, generating an inactive, open-ring metabolite. Incubation of ANP for a longer period with the enzyme led to the generation of several additional degradation fragments. Ten peaks were separated by HPLC and characterized by amino acid analysis. The results allowed the identification of a total of eight peptide bonds susceptible to hydrolysis by tissue kallikrein in the sequence of ANP: Arg3-Arg4, Ser5-Ser6, Cys7-Phe8, Arg11-Met12, Gly16-Ala17, Gly20-Leu21, Ser25-Phe26 and Arg27-Tyr28. These results indicate that the aprotinin-sensitive activity involved in the metabolism of ANP in circulation could correspond to tissue kallikrein. However, clear identification of ANP as a novel physiological substrate of the enzyme will need further investigation.
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PMID:Hydrolysis of intact and Cys-Phe-cleaved human atrial natriuretic peptide in vitro by human tissue kallikrein. 182 98

Mouse nerve growth factor (NGF) is cleaved at a histidine-methionine bond to release an NH2-terminal octapeptide (NGF1-8). The enzyme responsible, beta-NGF-endopeptidase, is structurally and functionally similar to gamma-NGF and epidermal growth factor-binding protein (EGF-BP) and cleaves mouse low molecular weight kininogen to produce bradykinin-like activity. These data have suggested that, like gamma-NGF and EGF-BP, beta-NGF-endopeptidase is a mouse glandular kallikrein. Evidence for a physiological role for NGF1-8 encouraged studies to further characterize the structure and function of this enzyme. Purified beta-NGF-endopeptidase migrated as a single band on isoelectric focusing and reducing SDS-polyacrylamide gels. As was expected, it removed NGF1-8 from NGF. Interestingly, enzymatic activity on an artificial substrate, and on NGF, was inhibited by NGF1-8 and by bradykinin. These studies further supported the view that beta-NGF-endopeptidase acts on both NGF and kininogen. The first 30 NH2-terminal amino acids of beta-NGF-endopeptidase were sequenced. This analysis demonstrated that the enzyme is encoded by the gene designated mGK-22 (Evans et al., 1987). The sequence of this gene corresponds to that of EGF-BP type A (Anundi et al., 1982; Drinkwater et al., 1987), and so studies were performed to determine whether or not beta-NGF-endopeptidase participates in EGF complex formation. Chromatographic and kinetic data gave no evidence that beta-NGF-endopeptidase is an EGF-binding protein. Our studies suggest that contamination of high molecular weight (HMW) EGF preparations with beta-NGF-endopeptidase erroneously led to earlier designation of the product of mGK-22 as an EGF-BP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:beta-NGF-endopeptidase: structure and activity of a kallikrein encoded by the gene mGK-22. 201 5

A tissue-kallikrein-related proteinase present in rat submaxillary glands, which was previously called endopeptidase k, has been further characterized and compared with other members of the kallikrein family. The partial primary structure of this proteinase, now called kallikrein k10, is very similar to that of proteinase B [Kato, H., Nakanishi, E., Enjyoji, K., Hayashi, I., Oh-Ishi, S. & Iwanaga, S. (1987) J. Biochem. (Tokyo) 102, 1389-1404] and T-kininogenase [Xiong, W., Chen. L. M. & Chao, J. (1990) J. Biol. Chem. 265, 2822-2827], but no corresponding gene or mRNA has so far been found. Kallikrein k10 is microheterogeneous due to variable glycosylation of its N-terminal light chain and to variable processing at its kallikrein loop, as shown by endo-beta-N-acetylglucosaminidase F treatment, amino acid sequence analysis and mass spectrometry. The enzymatic properties of the two molecular varieties of kallikrein k10 towards synthetic fluorogenic substrates are not significantly different. Both cleave specifically after Arg residues, but, in contrast to true tissue kallikrein, may accommodate either polar or nonpolar residues at position P2. Kallikrein k10 also differs from tissue kallikrein by its sensitivity to soyabean trypsin inhibitor. Its biological function may therefore differ from that of tissue kallikrein, especially as it does not induce a transient decrease in blood pressure when injected in vivo.
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PMID:Microheterogeneity of rat submaxillary gland kallikrein k10, a member of the kallikrein family. 202 64

The two major species of arginine endopeptidase present in the soluble fraction of human submaxillary gland are glandular kallikrein and another enzyme tentatively named nonkallikrein arginine endopeptidase. In this study, we purified the latter enzyme to homogeneity and examined its catalytic properties. The newly found enzyme was clearly distinguishable from human tissue kallikrein in its molecular nature, action toward various synthetic substrates, and kinin-generated activity. The specificity of the action of the enzyme was further investigated using various basic amino acid-containing peptides as model substrates. HPLC analysis of peptide fragments produced, followed by their amino acid analysis, revealed that the enzyme preferentially hydrolyzed the Arg-Arg or Arg-Lys bonds in dynorphins A 1-10, 1-9, and 1-8, beta-neoendorphin, adenorphin, and neurotensin.
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PMID:Nonkallikrein arginine endopeptidase in the human submaxillary gland: purification and characterization of the enzyme. 785 81

Four members of the tissue kallikrein family, mK1, mK9, mK13, and mK22, all of which exhibit extensive homology in amino acid sequence among themselves, were obtained from the submandibular gland of ICR mice and examined for their ability to cleave prorenin. Tissue kallikrein mK13 was confirmed to be a prorenin-converting enzyme; and mK9, which was earlier shown to be an EGF-binding protein, was found to cleave mouse Ren 2 prorenin specifically and convert it to mature renin with an activity of approximately 1/10 of that of mK13. With the same substrate, mK22 (beta-NGF endopeptidase) gave two products, renin and arginyl-renin; whereas mK1 (true tissue kallikrein) did not process it at all. The endoproteolytic activity of tissue kallikreins was examined with various peptide-MCA substrates. The substrates contained three key structures; X(Y)-Arg-Arg, X(Y)-Lys-Arg and X-Lys-Lys motifs (where X and Y are hydrophilic and hydrophobic amino acids, respectively). We found that mK1, mK9 and mK13 preferentially cleaved the former two types of substrate, except Y-Arg-Arg-MCA. The substrate X-Lys-Lys-MCA was hardly cleaved by these three tissue kallikreins but was preferentially cleaved by mK22. The four tissue kallikreins seem to have the ability to process precursor proteins containing a pair of basic amino acid residues; the specificities of three of the enzymes (mK1, mK9 and mK13) were similar to each other but were different from that of mK22.
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PMID:Prorenin processing and restricted endoproteolysis by mouse tissue kallikrein family enzymes (mK1, mK9, mK13, and mK22). 950 64

1. Subcutaneous injection of sodium deoxycholic acid into the anterior of the back of male ddY mice elicited dose-dependent scratching of the injected site with the forepaws and hindpaws. 2. Up to 100 microg of sodium deoxycholic acid induced no significant increase in vascular permeability at the injection site as assessed by a dye leakage method. 3. Bradykinin (BK) B2 receptor antagonists, FR173657 and Hoe140, significantly decreased the frequency of scratching induced by sodium deoxycholic acid. 4. Treatment with aprotinin to inhibit tissue kallikrein reduced the scratching behaviour induced by sodium deoxycholic acid, whereas treatment with soybean trypsin inhibitor to inhibit plasma kallikrein did not. 5. Although injection of kininase II inhibitor, lisinopril together with sodium deoxycholic acid did not alter the scratching behaviour, phosphoramidon, a neutral endopeptidase inhibitor, significantly increased the frequency of scratching. 6. Homogenates of the skin excised from the backs of mice were subjected to gel-filtration column chromatography followed by an assay of kinin release by trypsin from each fraction separated. Less kinin release from the fractions containing kininogen of low molecular weight was observed in the skin injected with sodium deoxycholic acid than in normal skin. 7. The frequency of scratching after the injection of sodium deoxycholic acid in plasma kininogen-deficient Brown Norway Katholiek rats was significantly lower than that in normal rats of the same strain, Brown Norway Kitasato rats. 8. These results indicate that BK released from low-molecular-weight kininogen by tissue kallikrein, but not from high-molecular-weight kininogen by plasma kallikrein, may be involved in the scratching behaviour induced by the injection of sodium deoxycholic acid in the rodent.
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PMID:Reduction of sodium deoxycholic acid-induced scratching behaviour by bradykinin B2 receptor antagonists. 1005 Nov 36

Peptide hormones are involved in the paracrine regulation of several physiological processes. A possible function of the kallikrein-kinin system (KKS) in mammalian reproduction has been discussed. To evaluate its putative role in spermatogenesis, we searched for components of the KKS (kallikrein, kininases, kinin receptor) in the rat testis. Specific immunostaining demonstrated that the kininogenase tissue kallikrein was present in round and elongated spermatids. Leydig cells, Sertoli cells, peritubular cells, spermatogonia and spermatocytes were not stained. Bradykinin in the supernatant of Sertoli cell cultures was effectively degraded. The resulting metabolites were analysed by high-performance liquid chromatography (HPLC). Specific protease inhibition in the degrading experiments confirmed the occurrence of several metalloproteases on Sertoli cell membranes, including neutral metalloendopeptidases (NEP 24.11 and NEP 24.15), kininase type II (angiotensin converting enzyme, ACE), and kininase type I (metallocarboxypeptidase). Northern blots hybridized with a bradykinin B2 receptor probe showed the presence of B2 receptor mRNA in testis homogenate and Sertoli cell extract. All components of the kallikrein-kinin system are present within the seminiferous epithelium of the rat. Therefore, this paracrine peptide system may play a role in the regulation of Sertoli cell function or in the Sertoli cell-germ cell crosstalk.
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PMID:Elements of the kallikrein-kinin system are present in rat seminiferous epithelium. 1061 98


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