EC:3.4.24.11 - FACTA Search

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)

Acute lymphoblastic leukemia (ALL) cells of precursor-B type were assessed for expression of the cell surface peptidase CD13 (aminopeptidase-N) after 72 hours' culture in 10% B cell growth factor (BCGF), TPA, or medium alone. CD13 was analyzed phenotypically using a specific monoclonal antibody (mAb) by flow cytometry, and also with a spectrophotometric enzyme assay to measure the cleavage of specific peptide substrates. CD13 antigen was induced in all 10 cases of precursor-B ALL after culture with BCGF, with weaker expression seen in cells incubated with TPA or in medium alone. Aminopeptidase-N-like enzymatic activity was also demonstrated in cultured cells, particularly after BCGF exposure. Using the mAb WM-15, which specifically inhibits aminopeptidase-N function, we demonstrated that induction of true aminopeptidase-N activity was largely restricted to BCGF-treated cells, in which approximately 20% of total aminopeptidase activity was due to aminopeptidase-N. Phenotypic expression of the peptidase CD10 (neutral endopeptidase) was not altered on cultured cells. These findings indicate that CD13 expression can be selectively upregulated on ALL cells in response to proliferative stimuli. This peptidase, in cooperation with CD10 and perhaps other surface enzymes, may act to regulate the concentration of molecules at the cell surface which influence the growth of precursor-B ALL cells.
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PMID:Functional and phenotypic upregulation of CD13/aminopeptidase-N on precursor-B acute lymphoblastic leukemia after in vitro stimulation. 755 27

The anti-AIDS drug, [D-Ala1] Peptide T amide (D-ASTTTNYT.NH2) is an octapeptide which competitively inhibits the attachment of HIV to the receptor CD4 molecule on the T-lymphocyte. The objective of the study is to investigate the degradative process of this peptide and its effective enzyme inhibitors. The metabolites of [D-Ala1] Peptide T amide in rabbit brush-border membrane vesicles at pH 6.5 are ASTT, ASTTTN, YT and Y. The sequential time-course study of each metabolite reveals that enkephalinase (EC 3.4.24.11) plays an important role in the hydrolysis of [D-Ala1] Peptide T amide to ASTT. With the addition of an enkephalinase inhibitor, thiorphan, 85% of degradation was inhibited. Aminopeptidase is also involved in its degradative process and 25% of inhibition was observed by amastatin, an aminopeptidase inhibitor. The results show that no significant difference was observed between the in situ and chronical loop perfusion studies and enzyme activities are somewhat inhibited under acidic conditions in both methods. Approx. 90% of the parent peptide remained when rats were perfused with pH 4.0 peptide solution at a flow rate of 0.123 ml/min, while only 60% was recovered when pH 6.5 peptide solution was applied. The addition of amastatin made a quadrupled increase in the amount of parent peptide recovered. A 117-fold increment was observed when thiorphan was added. The dimensionless wall permeability of this peptide was 1.19 +/- 0.16 when pH 4.0 peptide solution was used during chronical loop perfusion study. Therefore, this study suggests that [D-Ala1] Peptide T amide could be absorbed via small intestine where enzymatic degradation s a rate-limiting step for the absorption of this peptide.
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PMID:Investigation into the intestinal metabolism of [D-Ala1] peptide T amide: implication for oral drug delivery. 765 67

The processing of peptide-YY (PYY) by purified membrane peptidases and brush border membrane preparations from human kidney and jejunum has been compared. Dipeptidyl peptidase-IV hydrolyzes PYY at the Pro2-Ile3 bond, producing PYY-(3-36), which is a Y2 receptor-selective ligand. Aminopeptidase-P removes the N-terminal tyrosine from PYY, but the intact peptide is not a substrate for aminopeptidase-N. Endopeptidase-24.11 (neutral endopeptidase; enkephalinase) metabolizes PYY efficiently, with a major site of hydrolysis at the Asn29-Leu30 bond, an inactivating cleavage. Angiotensin-converting enzyme does not hydrolyze PYY. In renal brush border membranes, hydrolysis of PYY is substantially (> 75%) inhibited by phosphoramidon, suggesting that endopeptidase-24.11 initiates hydrolysis of PYY in this preparation. In jejunal brush border membranes, phosphoramidon has a much smaller effect (15% inhibition), and contributions due to the actions of aminopeptidase-P and dipeptidyl peptidase-IV were evident. Few physiological substrates have yet been identified for aminopeptidase-P and dipeptidyl peptidase-IV; the pancreatic polypeptide fold family, of which PYY is a member, may well represent endogenous substrates for those cell surface ectoenzymes. Dipeptidyl peptidase-IV converts PYY to a metabolite PYY-(3-36), a highly selective agonist for the Y2 receptor type. Thus, the relative levels of the three membrane peptidases at different tissue locations and on different cell types may play a pivotal role in postsecretory processing and metabolism of PYY to receptor-selective agonists or inactive metabolites.
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PMID:Processing and metabolism of peptide-YY: pivotal roles of dipeptidylpeptidase-IV, aminopeptidase-P, and endopeptidase-24.11. 790 71

Several forms of perturbation result in the release of bioactive molecules into the microenvironment of injured cells to mediate the inflammatory or reparative reactions which restore normal tissue structure and function. Amongst other products, ultraviolet irradiation (UV) causes the release of the growth factor TGF alpha from a variety of epithelial cell sources, apparently by a post-translational mechanism. Here we have explored the hypothesis that UV results in the activation of cell surface proteases which may then be capable of excising mature TGF alpha from its plasma membrane-bound precursor. Using a recently described, sensitive assay of peptidase activity tailored to the substrate requirements for cleavage of the scissile bonds in proTGF alpha, we have found that nonlethal fluences of UV (< 12 Jm-2) to HeLa cell cultures are followed by large increases in cell surface proteolytic activities. Amongst these, endopeptidase activity produces a similar product profile from the nonapeptide substrate to that of human leukocyte elastase, an enzyme previously shown to be capable of releasing a bioactive, mature form of TGF alpha from its cell-bound precursor. However, in addition to this candidate "TGFase" activity, cell surface aminopeptidase activity was also very significantly increased. The increase in the two classes of peptidase function differed in the timing of their responses. Aminopeptidase activation occurred immediately following UV, peaking after some 15-20 h, whereas the increase in endopeptidase activity lagged 6 h behind, cresting after 20-24 h. No evidence for a role for aminopeptidase in the activation of the endopeptidase could be found. Also, there was no increase in the total proteolytic activity demonstratable in cell extracts following UV. Attempts to interrupt the UV peptidase activation by inhibiting protein synthesis with cycloheximide were unsuccessful; rather, the inhibitor itself caused an increase in both classes of peptidase activity during the first 20 h. Unlike the UV response, both the aminopeptidase and endopeptidase ectoactivities increased simultaneously within a few hours of introducing cycloheximide into the medium of unirradiated cultures. The cycloheximide induced activity peaked after 20 h. Interestingly, cycloheximide alone has previously been shown to potentiate TGF alpha release from a cell line producing its precursor constitutively. These data suggest that both UV and cycloheximide can initiate reactions in HeLa cells which result in ectopeptidase activation of a global nature. Since both agents result in rapid interruption of DNA synthesis, it is possible that this cell surface proteolytic response may be analogous to, or part of, the "mammalian genetic stress response".(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Low fluences of ultraviolet irradiation stimulate HeLa cell surface aminopeptidase and candidate "TGF alpha ase" activity. 843 38

The peptidase activities excreted in culture broths of Trametes trogii mycelium have been identified by determining the digestion pathway of various peptides. Insulin beta-chain (30 residues), procasomorphin (10 residues) and two peptides of five residues (proctolin and thymosin alpha 1 fragment 23-27) were utilized as model substrates. Aminopeptidase, carboxypeptidase, endopeptidase and dipeptidyl aminopeptidase activities were revealed and information on their specificity was deduced. Preliminary data on the pH-dependent activity of the peptidases were also obtained by sequence analysis of the fragment mixtures produced at different pH values.
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PMID:Characterization of extracellular proteases from Trametes trogii. 882 31

The surface of most cells includes a coterie of resident proteins which act as receptors for a wide variety of ligands and other proteins which are potentially bioactive on cell-cell contact (juxtacrine effects), or else are released by enzyme activity to influence cell behaviour by autocrine or paracrine mechanisms. We previously found that UVC irradiation stimulates the release of TGFalpha from its membrane-bound preprocursor form whereby it acts as a stimulus to rapid, reparative cell multiplication; clearly this runs the risk hastening mitosis before UV-induced DNA damage is fully corrected, which in turn may increase the likelihood of residual lesions persisting and hence of new mutations being generated. We found that sublethal UVC irradiation (10 J m(-2)) of HeLa cell cultures also resulted in activation of ecto-aminopeptidase and ecto-endopeptidases which were maximal 16 and 20-24 h after irradiation, respectively. Both of these classes of protease were shown to be metalloproteases using a nonapeptide substrate (called P9) which is cognate to the N-terminal cleavage site of preproTGFalpha except for a reporter 125I-tyrosine [Piva et al., J. Cell. Biochem. 64 (1997) 353-368]. We now show that the N-terminal tyrosine cleaved from P9 by cell surface aminopeptidase activity, was found to be taken up by the cell resulting in its 10-25-fold concentration intracellularly, some two- to threefold higher than from a reservoir source, and may represent a novel salvage pathway for recovery of essential amino acids. Aminopeptidase activity was found to be both temperature- and FBS-dependent but was not reliant on ATP for its activity. Tyrosine transport across the cell membrane was also temperature and FBS-dependent but required ATP for maximal activity. UVC irradiation enhanced aminopeptidase activity but not tyrosine uptake by the cultures. The fraction of HeLa cells undergoing apoptosis increased in those cultures which were exposed to higher doses of UVC. The levels of ecto-aminopeptidase and ecto-endopeptidase activity in apoptotic cells were elevated compared to viable cells receiving the same dose of UVC. These results suggest that increased levels of cell surface protease activity in apoptotic cells would increase the amounts of free amino acids and growth factors in the extracellular medium and hence stimulate the proliferation of surrounding cells to replace those killed by UV irradiation.
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PMID:Effect of UV irradiation on cell surface protease activity and amino acid uptake. 992 Apr 28

In recent years, there has been increasing evidence of the involvement of the endogenous opioid system in mental depression and its treatment. In this work, we have measured the effect of imipramine on enkephalin-degrading peptidases in several rat brain areas. Aminopeptidase activities have been assayed using Tyr-beta-naphthylamide as substrate and puromycin as selective inhibitor. Dansyl-D-Ala-Gly-Phe(pNO2)-Gly has been the substrate for neutral endopeptidase 24.11. Imipramine in vitro inhibits puromycin-sensitive activities in all brain areas studied, without affecting the rest of the enzymes assayed. However, subacute imipramine treatment increases neutral endopeptidase activity in the hypothalamus and chronic treatment increases this activity in the hypothalamus and the striatum. These results suggest to us that enkephalin-degrading peptidases are involved in the acute and chronic action mechanism of imipramine and reinforce the idea that the central enkephalinergic activity is dynamically changed during the treatment of depressive illness.
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PMID:Effect of imipramine on enkephalin-degrading peptidases. 1062 17

Two of the primary sites of actions for angiotensin (ANG)-(1---7) are the vasculature and the kidney. Because little information exists concerning the metabolism of ANG-(1---7) in these tissues, we investigated the hydrolysis of the peptide in rat lung and renal brush-border membrane (BBM) preparations. Radiolabeled ANG-(1---7) was hydrolyzed primarily to ANG-(1---5) by pulmonary membranes. The ANG-converting enzyme (ACE) inhibitor lisinopril abolished the generation of ANG-(1---5), as well as that of smaller metabolites. Kinetic studies of the hydrolysis of ANG-(1---7) to ANG-(1---5) by somatic (pulmonary) and germinal (testes) forms of rat ACE yielded similar values, suggesting that the COOH-domain is responsible for the hydrolysis of ANG-(1---7). Pulmonary metabolism of ANG-(1---5) yielded ANG-(3---5) and was independent of ACE but may involve peptidyl or dipeptidyl aminopeptidases. In renal cortex BBM, ANG-(1---7) was rapidly hydrolyzed to mono- and dipeptide fragments and ANG-(1---4). Aminopeptidase (AP) inhibition attenuated the hydrolysis of ANG-(1---7) and increased ANG-(1---4) formation. Combined treatment with AP and neprilysin (Nep) inhibitors abolished ANG-(1---4) formation and preserved ANG-(1---7). ACE inhibition had no effect on the rate of hydrolysis or the metabolites formed in the BBM. In conclusion, ACE was the major enzymatic activity responsible for the metabolism of ANG-(1---7) in the lung, which is consistent with the ability of ACE inhibitors to increase the half-life of circulating ANG-(1---7) and raise endogenous levels of the peptide. An alternate pathway of metabolism was revealed in the renal cortex, where increased AP and Nep activities, relative to ACE activity, promote conversion of ANG-(1---7) to ANG-(1---4) and smaller fragments.
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PMID:Pathways for angiotensin-(1---7) metabolism in pulmonary and renal tissues. 1105 44

Peptide hydrolase system of Lactobacillus reuteri CRL 1098, a lactic acid bacteria of sourdough origin, was investigated. This microorganism has a broad range of peptidases consisting of an active aminopeptidase, X-Prolyl-dipeptidylaminopeptidase, dipeptidase and tripeptidase. Aminopeptidase, iminopeptidase and endopeptidase are most likely located in the cytoplasmic fraction showing no detectable association with the cell membrane, while dipeptidase and tripeptidase are mainly associated with the latter fraction. The peptidases are metalloenzymes activated by Co2+ and inhibited by Cu2+, Hg2+, Cd2+ and by metal-complexing reagents. The aminopeptidase activity inhibited by EDTA can be restored by Mn2+ while that of di- and tripeptidase treated with 1,10-phenantroline can be restored by Zn2+ and Co2+, respectively.
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PMID:The peptide hydrolase system of Lactobacillus reuteri. 1176 95

We studied the effects of prolonged dark growth on proplastids and etioplasts in cotyledons of sugar beet (Beta vulgaris L.) seedlings. Differentiation of proplastids into etioplasts occurred between d 4 and d 6 after imbibition, with the typical characteristics of increased synthesis of plastidial proteins, protein and carotenoid accumulation, size increase, development of plastid membranes and of the prolamellar body, and increase of the greening capacity. However, this situation of efficient greening capacity was short-lived. The greening capacity started to decline from d 6 after imbibition. This decline was due in part to reserve depletion and glucose limitation and also to irreversible damage to plastids. Indeed, electron microscopy observations in situ showed some signs of plastidial damage, such as accumulation of plastoglobuli and membrane alterations. The biochemical characterization of purified plastids also showed a decrease of proteins per plastid. Aminopeptidase activities, and to a lesser extent, neutral endopeptidase activities, were found to increase in plastids during this degenerative process. We identified two plastidial aminopeptidases showing a sharp increase of activity at the onset of the degenerative process. One of them, an alanyl aminopeptidase, was shown to be inactivated by exposure to light or addition of exogenous glucose, thus confirming the relationship with prolonged dark growth and indicating a relationship with glucose limitation.
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PMID:Modifications of Etioplasts in Cotyledons during Prolonged Dark Growth of Sugar Beet Seedlings (Identification of Etiolation-Related Plastidial Aminopeptidase Activities). 1223 31

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