Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Endo-oligopeptidase A, highly purified from the cytosol fraction of bovine brain by immunoaffinity chromatography, has been characterized as a thiol endopeptidase. This enzyme, known to hydrolyze the Phe5-Ser6 bond of bradykinin and the Arg8-Arg9 bond of neurotensin, has been shown to produce, by a single cleavage, Leu5-enkephalin or Met5-enkephalin from small enkephalin-containing peptides. Enkephalin formation could be inhibited in a concentration-dependent manner by the alternative substrate bradykinin. The optimal substrate size was found to be eight to 13 amino acids, with enkephalin the only product released from precursors in which this sequence is immediately followed by a pair of basic residues. However, the specificity constants (kcat/Km) obtained for endo-oligopeptidase A hydrolysis of bradykinin, neurotensin, and dynorphin B are of the same order, a result indicating that the substrate amino acid sequence is not the only factor determining the cleavage site of this enzyme.
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PMID:Brain endo-oligopeptidase A, a putative enkephalin converting enzyme. 288 Sep 31

The endogenous opioid peptides all contain the enkephalin sequence Tyr-Gly-Gly-Phe-Met and Tyr-Gly-Gly-Phe-Leu at their aminoterminus. Three distinct families of these peptides (endorphins, enkephalins and dynorphins) are present in different neuronal pathways within the central nervous system. Molecular genetics have shown that these three families of opioid peptides are derived from three distinct precursors. Pro-opiomelanocortin gives rise to the endorphins, as well as adrenocorticotropic hormone (ACTH) and the melanotropic hormones (MSH's). [Met] enkephalin, [Leu] enkephalin and the related heptapeptide [Met] enkephalin-Arg6-Phe7 and octapeptide [Met] enkephalin-Arg6-Gly7-Leu8 are derived from proenkephalin. The third family is derived from prodynorphin and includes dynorphin A, dynorphin B (also known as rimorphin) and alpha- and beta-neo-endorphin. The structure of the genes coding for these precursors are similar, suggesting the possibility of one common ancestral gene. The most common scheme for enzymatic maturation of precursors proposes the action of a trypsin-like endopeptidase followed by a carboxypeptidase B-like exopeptidase. However, we have provided evidence that this combination of trypsin-like and carboxypeptidase B-like enzymes may not be the only mechanism for liberating enkephalin from low molecular weight enkephalin-containing peptides. Indeed, endo-oligopeptidase A, an enzyme, known to hydrolyze the Phe5-Ser6 bond of bradykinin and the Arg8-Arg9 bond of neurotensin, has been shown to produce, by a single cleavage, [Leu] enkephalin or [Met] enkephalin from small enkephalin-containing peptides, (Camargo et al., 1987, J. Neurochem. 48, 1258-1263).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Biosynthesis of opioid peptides]. 305 81

Endo-oligopeptidase A, highly purified from the cytosol fraction of bovine brain by immunoaffinity chromatography, has been characterised as a thiol endopeptidase. This enzyme, known to hydrolyse the Phe5-Ser6 bond of bradykinin and the Arg8-Arg9 bond of neurotensin has been shown to produce, by a single cleavage, [Leu]enkephalin or [Met]enkephalin from small enkephalin-containing peptides. Enkephalin formation could be inhibited in a concentration dependent manner by the alternative substrate bradykinin. The optimal substrate size was found to be 8-13 amino acids, with enkephalin the only product released from precursors in which this sequence is immediately followed by a pair of basic residues. However, the specificity constants (kcat/Km) obtained for endo-oligopeptidase A hydrolysis of bradykinin, neurotensin and dynorphin B are of the same order. Taken together, these results indicate that the substrate amino acid sequence is not the only factor determining the cleavage site of this enzyme. Finally, endo-oligopeptidase A and metalloendopeptidase EC 3.4.24.15 are two different enzymes. The latter is not able to liberate enkephalins from metorphamide and dynorphin.
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PMID:Liberation of enkephalins from enkephalin-containing peptides by brain endo-oligopeptidase A. 313 42

Two closely related Cl(-)-activated arginyl aminopeptidases (I and II) were purified from a soluble extract of postmortem human cerebral cortex by anion-exchange chromatography and preparative gel electrophoresis. The electrophoretic mobility of II was approximately 80% that of I; the molecular mass of both enzymes was approximately 70 kilodaltons (kDa) (gel filtration). The aminopeptidase action of I and II on aminoacyl-7-amido-4-methylcoumarin (AMC) substrates was restricted to the Arg and Lys derivatives. Both enzymes had significant endopeptidase activity, hydrolysing several biologically active peptides including neurotensin, bradykinin, angiotensin-I, substance P, luliberin, and somatostatin at internal bonds. Other peptides [Leu-enkephalin, proctolin, thyroliberin, adrenocorticotropin18-39 (ACTH18-39), ACTH11-24, and dynorphin (1-13)] were not appreciably hydrolysed. The amino- and endopeptidase activities had pH optima at 6.5 and 7, respectively, and were both inhibited by metal ion chelators and sulphydryl group blocking agents. The aminopeptidase activity was stimulated 20-fold by Cl- ions, whereas the endopeptidase activity was unaffected by the latter. Km values for neurotensin degradation were 20 microM (I) and 37 microM (II) and for Arg-AMC hydrolysis they were 167 microM (I) and 125 microM (II). The endopeptidase activity was not inhibited by the aminopeptidase inhibitors arphamenine or bestatin (IC50 = 9 nM and 0.1 microM, respectively, with Arg-AMC substrate).
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PMID:Purification and characterization of two soluble Cl(-)-activated arginyl aminopeptidases from human brain and their endopeptidase action on neuropeptides. 265 16

Cathepsin B from brain exhibited both endopeptidase and dipeptidyl carboxypeptidase activity. Recently the factors, contributing to dipeptidyl carboxypeptidase properties of brain cathepsin B, were identified: I. occupation of the enzyme S3 subsite, 2. free C-terminal group of the substrate, 3. specific interaction between the split off dipeptide and the enzyme active site. The identification was carried out using angiotensin I, its C-end tripeptide and chromophore oligopeptides containing p-nitrophenylalanine residue. C-terminal dipeptide was split off in the proopioid peptides dynorphins 1-7 and 1-8, Met-enkephalin-Arg6-Phe7, Met-enkephalin-Arg6-Gly7-Leu8; the enzyme hydrolyzed also the C-terminal dipeptide bond in Leu- and Met-enkephalins without the subsequent hydrolysis of the remaining tripeptide. D-Ala2, D-Leu5-enkephalin were not hydrolyzed; the bond Arg9-Pro10 was resistant to proteolysis in dynorphin 1-11. Cathepsin B split off the C-terminal dipeptide in synthetic substrates Leu-Trp-Met-Arg-Phe-Ala and Trp-Met-Arg-Phe-Ala but not in Met-Arg-Phe-Ala. These results 06.08 M-15 demonstrated the essential role of branched-chain amino acid residue at the position of P2 and/or P3 of substrates for the enzyme dipeptidyl carboxypeptidase activity. The data obtained suggest that Arg residue at the position P2 (dynorphin 1-7) slowed down, D-amino acid at the position P2 (D-Ala2, D-Leu5-enkephalin) and Pro-Lys bond at the position P1-P2 (dynorphin 1-11) inhibited the cathepsin B dipeptidyl carboxypeptidase activity.
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PMID:[Brain cathepsin as dipeptidylcarboxypeptidase transforming provasopressor, pro-opioid and model peptides]. 331 15

In order to identify which peptidases are involved in the catabolism of neurotensin in the CNS, [3H-Tyr3,11]-neurotensin was superfused over rat hypothalamic slices in the presence and absence of peptidase inhibitors. The degree of degradation of the peptide was determined by reverse phase HPLC separation of 3H-labelled neurotensin from 3H-labelled products. Very little degrading activity was released from the slice into the medium during the superfusion. In the absence of inhibitors, 20 to 50% of 3H-neurotensin was degraded giving mainly 3H-Tyr along with other unidentified 3H-labelled products. Inhibitors of endopeptidase 24.11 (phosphoramidon) and proline endopeptidase (antibody) had no effect on the degradation. Captopril, an inhibitor of angiotensin converting enzyme, had a small inhibitory effect. In contrast, dynorphin(1-13), an inhibitor of a soluble, thiol dependent metallopeptidase which hydrolyses neurotensin at Arg8-Arg9, gave greater than 80% inhibition of 3H-neurotensin degradation in the slice preparation. 1,10-Phenanthroline, an inhibitor of metallopeptidases, was also an effective inhibitor. The dynorphin sequence responsible for the inhibition contains the Arg6-Arg7 bond. Other peptides (bradykinin and angiotensin) which are substrates of the soluble metallopeptidase also inhibited neurotensin breakdown by the slice. This evidence suggests that this thiol dependent metalloendopeptidase is the major neurotensin catabolizing enzyme in hypothalamic slices.
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PMID:Peptidases involved in the catabolism of neurotensin: inhibitor studies using superfused rat hypothalamic slices. 352 99

Synaptosomal membrane (SPM) bound exo- and endopeptidases cleave the dynorphins and Met-enkephalin-Arg-Gly-Leu at several sites to produce shorter fragments; among these are dynorphin 1-8 from 1-17, and Met-enkephalin from Met-enkephalin-Arg-Gly-Leu. The most vulnerable site is the Tyr-Gly bond cleaved by membrane-bound aminopeptidase(s), with the shorter peptides degraded more rapidly than the longer ones. A purified metalloendopeptidase sensitive to phosphoramidon inactivates the shorter peptide sequences at the Gly3-Phe4 bond, and the 1-13 and 1-17 sequences also at the Arg7-Ile8 bond. The kcat/Km ratios for purified metalloendopeptidase were 20-30 times higher for Leu-enkephalin and the proenkephalin octapeptide than for dynorphins 1-8, 1-13, and 1-17. Dynorphins 1-13 and 1-17 may serve as precursors for the widely distributed CNS neuropeptide dynorphin 1-8 since they were cleaved by a separate SPM endopeptidase insensitive to phosphoramidon. SPM monocarboxypeptidase converted dynorphin 1-13 to 1-12 (release of Lys) and dipeptidyl carboxypeptidase converted dynorphin 1-8 to 1-6; enkephalin octapeptide served as a precursor of Met-enkephalin by sequential action (release of Leu and Arg-Gly) of both carboxypeptidases.
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PMID:Membrane-bound enzymes and their role in processing of the dynorphins and of the proenkephalin octapeptide Metenkephalin-Arg-Gly-Leu. 614 75

The kinetics of the reactions of nine opioid peptides with the neutral endopeptidase ("enkephalinase") activities of human kidney, rat kidney, and rat brain have been determined. These opioid peptides can be divided into two classes, those that are good inhibitors of Leu5-enkephalin hydrolysis (Ki less than 75 microM) and good substrates for the enzyme, and those that are poor inhibitors (Ki greater than 500 microM) and are not substrates for the enzyme. The former group includes Leu5-enkephalin, Met5-enkephalin, Met5-enkephalin-Arg6-Phe7, beta-lipotropin, and gamma-endorphin, while the nonreactive opioid peptides include alpha-neo-endorphin, beta-neo-endorphin, dynorphin, and beta-endorphin. These results suggest that those peptides containing the Met5-enkephalin sequence are more reactive than those containing the Leu5-enkephalin sequence. The lack of specificity of this neutral endopeptidase indicates that it may function in the degradation of a variety of biologically active peptides.
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PMID:Reaction of opioid peptides with neutral endopeptidase ("enkephalinase"). 637 10

Cathepsin B was purified about 11,000-fold from monkey skeletal muscle by ammonium sulfate fractionation and sequential column chromatographies monitored by assaying of Z-Phe-Arg-MCA hydrolase activity. The purified enzyme gave a single protein band on SDS-polyacrylamide gel electrophoresis, and its molecular weight was estimated to be 24,000 by gel filtration. It had a pH optimum of 6.5, required a thiol reducing agent for activation, and was inhibited by various thiol protease inhibitors. These properties were similar to those reported for cathepsins B from other sources. Although the enzyme scarcely hydrolyzed ordinary proteins, such as casein, hemoglobin, and bovine serum albumin, it degraded myosin and actin among various myofibrillar proteins. These results strongly suggested that skeletal muscle cathepsin B may participate in the degradation of muscle proteins in vivo. In addition, cathepsin B was shown to hydrolyze various neuropeptides such as Leu-enkephalin, beta-neoendorphin, alpha-neoendorphin, dynorphin(1-13), and substance P. It appeared to act on these peptides mainly as a dipeptidyl carboxypeptidase, although not so rigorously, presumably due to its endopeptidase activity.
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PMID:Purification and characterization of cathepsin B from monkey skeletal muscle. 672 39

One case of breast neuroendocrine primary small cell carcinoma with light microscopic and immunohistochemical findings is reported. The patient died of unrelated disease 21 months after diagnosis and treatment by modified radical mastectomy, radiotherapy and subsequent chemotherapy. Immunohistochemical studies revealed cytokeratin and neuroendocrine markers (chromogranin, neuron-specific enolase) immunostaining on tumoral cells. Expression for neuropeptides (met-enkephalin, leu-enkephalin, beta-endorphin) and CALLA antigen was found. Based on this case report and six other previously reported cases, breast neuroendocrine primary small cell carcinoma appears to be a very aggressive tumor for which no firm conclusions regarding treatment can be drawn.
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PMID:Neuroendocrine primary small cell carcinoma of the breast. Report of a case and review of the literature. 863 51


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