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)

A peptidase that cleaved neurotensin at the Pro10-Tyr11 peptide bond, leading to the formation of neurotensin-(1-10) and neurotensin-(11-13), was purified nearly to homogeneity from rat brain synaptic membranes. The enzyme appeared to be monomeric with a molecular weight of about 70,000-75,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and high pressure liquid chromatography filtration. Isoelectrofocusing indicated a pI of 5.9-6. The purified peptidase could be classified as a neutral metallopeptidase with respect to its sensitivity to pH and metal chelators. Thiol-blocking agents and acidic and serine protease inhibitors had no effect. Studies with specific peptidase inhibitors clearly indicated that the purified enzyme was distinct from enzymes capable of cleaving neurotensin at the Pro10-Tyr11 bond such as proline endopeptidase and endopeptidase 24-11. The enzyme was also distinct from other neurotensin-degrading peptidases such as angiotensin-converting enzyme and a recently purified rat brain soluble metalloendopeptidase. The peptidase displayed a high affinity for neurotensin (Km = 2.6 microM). Studies on its specificity revealed that neurotensin-(9-13) was the shortest neurotensin partial sequence that was able to fully inhibit [3H]neurotensin degradation. Shortening the C-terminal end of the neurotensin molecule as well as substitutions in positions 8, 9, and 11 by D-amino acids strongly decreased the inhibitory potency of neurotensin. Among 20 natural peptides, only angiotensin I and the neurotensin-related peptides (xenopsin and neuromedin N) were found as potent as unlabeled neurotensin.
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PMID:Purification and characterization of a novel neurotensin-degrading peptidase from rat brain synaptic membranes. 352 64

The action of three previously isolated electrophoretically homogeneous brain proteinases--cathepsin B (EC 3.4.22.1), cathepsin D (EC 3.4.23.5), and high-molecular-weight aspartic proteinase (Mr = 90K; EC 3.4.23.-)--on human angiotensins I and II has been investigated. The products of enzymatic hydrolysis have been identified by thin-layer chromatography on Silufol plates using authentic standards and by N-terminal amino acid residue analysis using a dansyl chloride method. Cathepsin D and high-molecular-weight aspartic proteinase did not split angiotensin I or angiotensin II. Cathepsin B hydrolyzed angiotensin I via a dipeptidyl carboxypeptidase mechanism removing His-Leu to form angiotensin II, and it degraded angiotensin II as an endopeptidase at the Val3-Tyr4 bond. Cathepsin B did not split off His-Leu from Z-Phe-His-Leu. Brain cathepsin B may have a role in the generation and degradation of angiotensin II in physiological conditions.
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PMID:Action of brain cathepsin B, cathepsin D, and high-molecular-weight aspartic proteinase on angiotensins I and II. 391 Oct 93

Neutral thiol-activated peptidases present in the pH 5-soluble fraction of rabbit brain (separated by step-elution chromatography on diethylaminoethyl cellulose) were screened for the hydrolysis of bradykinin. Lys-bradykinin, Met-Lys-bradykinin, angiotensin I, angiotensin II, substance P, luteinizing hormone-releasing hormone (LH-RH), and neurotensin by bioassay. The column effluent was monitored for bradykinin inactivation and arylamidase activity and combined in six pools on the basis of bradykinin inactivation. The pools were characterized by determining the peptide fragments and amino acids released from bradykinin with an amino acid analyzer. Pools 1 through 3 contained 80% of the kininase activity and essentially all of the endopeptidase A and B activity, whereas pools 4 through 6 accounted for 98% of the recovered arylamidase activity. Bradykinin, angiotensin I, angiotensin II, and substance P were inactivated by all the pools, whereas LH-RH and neurotensin were inactivated by pools 3 and 4, and pools 3, 4, and 5, respectively. These data show that rabbit brain contains peptidases having some selectivity for the inactivation of neuropeptides. Endopeptidase B purified from pool 3 is inhibited by bradykinin-potentiating peptide 9a (BPP9a, SQ 20881) (< Glu-Trp-Pro-Arg-Pro-Gln-Ile-Pro-Pro), a competitive inhibitor of the hydrolysis of bradykinin (Km = 3.5 X 10(-5) M, Ki = 3 X 10(-6) M) which also completely inhibits the inactivation of LH-RH.
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PMID:Screening for rabbit brain neuropeptide-metabolizing peptidases. Inhibition of endopeptidase B by bradykinin potentiating peptide 9a (SQ 20881). 616 Dec 9

After extracting converting enzyme from a membrane fraction of homogenized human kidney, "enkephalinase" activity was solubilized with Triton X-100. Ion-exchange chromatography resolved two peaks of the "enkephalinase" activity, both of which cleaved Leu5-enkephalin at the Gly3-Phe4 bond. The major "enkephalinase" form was purified 1140-fold to homogeneity with a 14% yield. This homogeneous "enkephalinase" had a specific activity of 46 mumol min-1 mg-1 with Leu5-enkephalin as substrate. The purified enzyme, in addition to hydrolyzing Leu5-enkephalin, cleaved synthetic substrates with protected N- and C-terminal ends. On the basis of the specificity of the enzyme and its inhibition by chelating agents, human "enkephalinase" can be classified as a neutral metalloendopeptidase with a broad substrate specificity. The activity of this neutral endopeptidase with several biologically active peptides was compared to that of homogeneous human kidney converting enzyme. Both enzymes inactivated bradykinin by release of the C-terminal dipeptide but were inhibited differentially by specific inhibitors. Comparison of hydrolysis of bradykinin with that of its protected C-terminal peptide indicated that the neutral endopeptidase is more active toward the larger substrate than is converting enzyme. Although the neutral endopeptidase did not convert angiotensin I to II, it did hydrolyze angiotensin I at Pro7-Phe8 and inactivate angiotensin II by cleavage at the Tyr4-Ile5 bond.
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PMID:Human kidney "enkephalinase", a neutral metalloendopeptidase that cleaves active peptides. 634 83

The action of two earlier isolated highly purified spleen thiol proteinases on angiotensins I and II, bradykinin and kallidin was investigated. It was demonstrated that proteinase I which is apparently cathepsin L from bovine spleen brings about rapid inactivation of angiotensin II with a splitting of the Tyr-Ile bond and a formation of two tetrapeptides. Proteinases I also split angiotensin I. Proteinase I partially inactivates bradykinin and kallidin by splitting the Gly4-Phe5 bond. The activity of proteinase I toward angiotensin II is about 50 times higher than that toward bradykinin. The corresponding values of Km and V are 7.5 X 10(-5) M and 10.0 mumole/min/mg. The possible role of proteinase I in angiotensin II inactivation under physiological conditions is discussed. Proteinase II converts kallidin to bradykinin by splitting off the N-terminal lysine. Proteinase II causes partial inactivation of bradykinin by splitting of the Gly4-Phe5 and Phe5-Ser6 bonds of this peptide. Proteinase II possesses both aminopeptidase and endopeptidase activities and is therefore cathepsin H from spleen. Proteinase II does not split either angiotensin I or angiotensin II.
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PMID:[Action of two thiol proteinases from the spleen which are active in neutral media on vasoactive peptides]. 634 1

The presence of an endopeptidase hydrolyzing succinyl trialanine-p-nitroanilide [Suc(Ala)3-pNA] to Suc(Ala)2 and Ala-pNA in human kidney and its partial characterization have been reported (Ishida et al. (1981) Biochem. Int. 3, 239-246). This neutral metallo-endopeptidase was separated into two fractions (A and B) on Sephacryl S-300 and fraction B was further purified to an electrophoretically pure state. The fraction B enzyme had a molecular weight of 100,000 and was inhibited by metal chelators such as EDTA, o-phenanthroline and phosphoramidon, but not by serine protease inhibitors. The enzyme was found to hydrolyze peptide bonds preferentially at the amino sides of hydrophobic amino acids such as Leu and Phe, when its specificity was studied using insulin B chain and angiotensin I. Fraction A seems to be a tetramer of fraction B, judging from its molecular weight, pI, substrate specificity and immunological properties.
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PMID:Purification and characterization of the neutral endopeptidase from human kidney. 635 93

Secretory vesicles purified from the neural and intermediate lobes of the bovine pituitary contain acidic endopeptidases which are capable of converting renin tetradecapeptide (RTD) substrate to Angiotensin I (AI). Preliminary characterization of the neurosecretory vesicle (NSV) endopeptidase showed that it had a pH optimum of 4.0, and unlike renin was inactive at pHs greater than 6.0. It is inhibited by 10(-6) M pepstatin A, but not by PMSF, leupeptin, PMBS, or the specific renin inhibitor H-142. This NSV endopeptidase differed from cathepsin D in that it was unable to degrade alpha-casein, but was quite active in generating AI from RTD (Vmax = 5 moles/g protein/hour). No enzyme activity that could convert AI to Angiotensin II could be detected in the NSVs suggesting that the acidic endopeptidase is involved in processing neurosecretory vesicle proteins other than those associated with the renin angiotensin system in the brain.
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PMID:Angiotensin I-generating acid endopeptidase activity in neurosecretory vesicles isolated from bovine pituitary. 639 22

The dipsogenic activity of two artificial renin substrates, tetradecapeptide and tridecapeptide, was studied. The dose-response curves obtained with these peptides, following intracerebroventricular administration, were similar to that of angiotensin I. The angiotensin II antagonist, Sar1, Ala8-angiotensin II, inhibited the dipsogenic effect of tetradecapeptide, indicating the conversion of the latter peptide into angiotensin II. The lower dipsogenic activity of tridecapeptide points to a conversion of this renin substrate into angiotensin III. Specific inhibition of tetradecapeptide induced drinking by the endopeptidase inhibitor N-acetyl-pepstatin suggests the involvement of an endopeptidase in the conversion of the renin substrates in the brain. Two endopeptidases present in the brain (cathepsin D and renin), were compared with respect to their capacity to generate angiotensin I from artificial renin substrate in vitro. Cathepsin D was active under only acidic pH conditions, whereas renin showed a wider pH range with maximal activity in the non-acidic region. Moreover, cathepsin D did not generate angiotensin I from natural, cerebrospinal fluid-angiotensinogen in vitro, and lacked dipsogenic activity following central administration. Small amounts of renin, however, were able to release angiotensin I from cerebrospinal fluid in vitro. In addition, this enzyme induced high dipsogenic activity upon intracerebroventricular injection. These results support the existence of a functionally active central renin-angiotensin system and provide an argument against the involvement of cathepsin D in the formation of angiotensin I in the brain.
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PMID:Angiotensin generation in the brain and drinking: indications for the involvement of endopeptidase activity distinct from cathepsin D. 702 65

A porcine kidney microsomal metalloendopeptidase has been enriched 3900-fold. Gel filtration on a calibrated Toyo-Soda G-3000 SW column indicated an appropriate molecular weight for the endopeptidase of 88,000 +/- 2000. The purified enzyme is inhibited by a number of synthetic inhibitors of thermolysin. The endopeptidase hydrolyzes the succinyl (Suc)-containing fluorogenic peptide substrate Suc-Ala-Ala-Phe-(7-amino-4-methylcoumarin) at the Ala-Phe position with a Km of 2.9 X 10(-4) M. The endopeptidase also hydrolyzes a variety of peptides including corticotropin, substance P, angiotensin I and II, neurotensin, somatostatin, bradykinin, and the renin tetradecapeptide substrate. The endopeptidase hydrolyzes both [Leu]- and [Met]enkephalin at the Gly-Phe bond.
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PMID:Purification of a membrane-bound metalloendopeptidase from porcine kidney that degrades peptide hormones. 703 58

The generation of angiotensin I from the artificial renin substrate tetradecapeptide by proteolytic enzymes in rat brain tissue was studied. The involvement of endopeptidase activity in the enzymatical cleavage of the renin substrate was inferred from the simultaneous accumulation of both angiotensin I and the complementary tetrapeptide Leu-Val-Tyr-Ser on incubation of tetradecapeptide with rat brain tissue. This endopeptidase activity was active over a pH range of 3.5--7.5. In contrast, cathepsin D released angiotensin I from tetradecapeptide only at acidic pH. The angiotensin I accumulation on incubation of tetradecapeptide with brain endopeptidase activity was only partly inhibited in the presence of an excess of the carboxyl protease inhibitor N-acetyl pepstatin. Further, the brain endopeptidase activity displayed a subcellular localization different from that of acid protease activity. It is concluded that angiotensin I can be generated in the brain by soluble endopeptidases, which are distinct from cathepsin D.
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PMID:Subcellular localization in rat brain of angiotensin I-generating endopeptidase activity distinct from cathepsin D. 703 49


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