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)

This study was designed to determine which (if any) subtypes of leukemic blasts express a functional receptor for vasoactive intestinal peptide (VIP). Blasts harvested from bone marrow of 38 newly diagnosed patients were classified as acute lymphocytic leukemia (CALLA + pre-B-cell leukemia, CALLA-, pre-B-cell leukemia, T-cell leukemia) or acute myeloid leukemia based on cytochemical and histochemical markers. Of the 32 patients with lymphocytic leukemia, 22 expressed the VIP receptor as evidenced by VIP-mediated activation of adenylate cyclase in cell homogenates. Binding of 125I-VIP to ALL cells correlated with the ability of VIP to activate adenylate cyclase. The VIP receptor was not identified in myeloid blasts from any of six patients. Further correlation of 125I-VIP binding and VIP-mediated stimulation of adenylate cyclase was demonstrated in transformed cell lines: a pre-B-cell line (Nalm 6) and a T-cell line (Molt 4b) exhibited high-affinity binding of 125I-VIP and VIP-mediated activation of adenylate cyclase, whereas neither the histiocytic line (U937) nor the myelocytic line (HL60) appeared to express the VIP receptor. These observations suggest a role for VIP in the proliferation or differentiation of human T and B lymphocytes.
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PMID:Vasoactive intestinal peptide receptor expression on human lymphoblasts. 132 1

Neural control of the airways may be abnormal in asthma and neurogenic mechanisms may contribute to the pathophysiology of asthma. Cholinergic nerves are the predominant bronchoconstrictor pathway in airways and cholinergic neurotransmission may be increased in asthma by the effects of inflammatory mediators on afferent nerves (reflex effect) and on prejunctional receptors on postganglionic nerves. In addition there may be a defect in prejunctional M2-receptors on cholinergic nerves resulting in increased cholinergic neural effects. beta-Adrenoceptor function may be abnormal in asthmatic airways as a result of chronic inflammation, but alpha-receptors are probably unimportant in regulation of human airway tone. Inhibitory NANC nerves are the only bronchodilator pathway in human airways, and there is some evidence that the neurotransmitter is predominantly nitric oxide, although vasoactive intestinal peptide may be contributory. It is possible that i-NANC function may be abnormal in asthma as a consequence of inflammation. Unmyelinated sensory nerves contain a variety of potent inflammatory peptides, including substance P and neurokinin A, which might be released in chronic inflammation, particularly if there is a proliferation of these nerves, increased neuropeptide synthesis or reduced metabolism by neutral endopeptidase.
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PMID:Neural mechanisms in asthma. 135 67

We studied the effect of vasoactive intestinal peptide (VIP) on ciliary activity in rabbit cultured tracheal epithelium by a photoelectric method in vitro. Administration of VIP (10(-7) M) elicited an increase in ciliary beat frequency (CBF) from the baseline values of 970 +/- 52 to 1139 +/- 75 beats/min (mean +/- S.E., P less than 0.01). This ciliostimulatory effect was dose-dependent, with the maximal increase and EC50 value being 17.4 +/- 1.0% (P less than 0.05) and 6.10(-11) M, respectively. The VIP-induced increase in CBF was abolished by pretreatment of cells with [4-Cl-D-Phe6, Leu17]-VIP, a VIP receptor antagonist. The neutral endopeptidase inhibitor phosphoramidon (10(-5) M) potentiated the effect of VIP, so that the CBF dose-response curve for VIP was shifted to lower concentrations by 0.5 log U. The administration of VIP increased cyclic AMP levels in epithelial cells, an effect that was also potentiated by phosphoramidon. These results suggest that VIP may interact with its specific receptors and stimulate airway ciliary activity probably through the activation of adenylate cyclase, and that neutral endopeptidase may play a role in modulating this effect of VIP.
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PMID:Vasoactive intestinal peptide stimulates ciliary motility in rabbit tracheal epithelium: modulation by neutral endopeptidase. 165 11

The purpose of the study was to evaluate the importance of the epithelium in determining the potency of exogenous vasoactive intestinal peptide (VIP) in inhibiting responses of isolated guinea pig trachea to vagal stimulation. Isolated innervated tracheal preparations (n = 56) were mounted in glass organ baths in Krebs-Henseleit (K-H) solution at 37 degrees C and gassed with 95% O2-5% CO2. The inside of the trachea was separately perfused with K-H solution at 1 ml/min. The vagal nerve trunks were stimulated (20 V, 1-ms pulses, 10-s trains) at low (0.5 Hz) and high frequency (15 Hz) alternately, and the contractile responses were measured as increases in intratracheal pressures. VIP (10(-8)-10(-7) M) inhibited responses to both high- and low-frequency stimulation. VIP was more potent in inhibiting contractions when administered to the outside than the inside surface of the trachea, and disruptionon of the epithelium abolished this difference. The endopeptidase inhibitors phosphoramidon and thiorphan (5 x 10(-6) M) potentiated the action of VIP. These data indicate that the epithelium reduces the efficacy of VIP. We suggest that the epithelium is a site of degradation of VIP by endopeptidase and may also be a diffusion barrier.
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PMID:Epithelium modulates the potency of vasoactive intestinal peptide in the guinea pig. 177 5

1. We have studied the effect of epithelium removal on relaxation of guinea-pig isolated tracheal smooth muscle induced by vasoactive intestinal peptide (VIP) or stimulation of non-adrenergic, non-cholinergic (NANC) inhibitory nerves. Also examined were the effects of inhibitors of neutral endopeptidase (NEP) and angiotensin-converting enzyme (ACE). 2. Epithelium removal produced a 3.6 +/- 0.4 fold leftward shift in the VIP concentration-response curve. The supersensitivity to VIP, following epithelium removal was abolished by phosphoramidon or thiorphan (NEP inhibitors), but unaffected by captopril (an ACE inhibitor). In intact trachea, the NEP inhibitors produced leftward shifts in the VIP curves similar to those produced by epithelium removal. 3. In contrast to responses to exogenous VIP, neurogenic NANC inhibitory responses to electrical field stimulation were affected neither by epithelial denudation nor by the peptidase inhibitors. 4. As in previous studies, epithelium removal increased tracheal sensitivity to isoprenaline. This was not altered by pretreatment with a cocktail of peptidase inhibitors. Thus, the effect of the NEP inhibitors on responses to VIP appears to be relatively specific. 5. These data indicate that exogenous VIP is a substrate for airway NEP, since inhibition of the enzyme potentiates the peptide. This is further evidence that the airway epithelium provides a source for the metabolism of mediators. 6. In guinea-pig trachea the NEP responsible for cleaving VIP may be located largely in the epithelial layer, since NEP inhibition was without effect on sensitivity to VIP in epithelium-denuded preparations. If VIP is a NANC inhibitory neurotransmitter in this tissue its degradation endogenously does not appear to involve epithelial NEP.
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PMID:Effects of epithelium removal on relaxation of airway smooth muscle induced by vasoactive intestinal peptide and electrical field stimulation. 219 67

Nonadrenergic, noncholinergic contractile responses of guinea pig hilar bronchi to transmural electrical stimulation (TES) have been suggested to be due to release of endogenous tachykinins from capsaicin-sensitive neurons (C-fibers). Thiorphan and phosphoramidon, inhibitors of neutral endopeptidase (NEP, the major enzyme responsible for degrading tachykinins), were found to potentiate contractile responses of this isolated airway segment to TES and exogenously applied capsaicin, substance P and neurokinin A. However, the magnitude of potentiation by either inhibitor was smaller for TES and capsaicin (less than 10-fold leftward shift) than for the substrate agonists (about 100-fold leftward shift). This quantitative difference in potentiation by NEP inhibitors does not appear to be due to an influence of vasoactive intestinal peptide or calcitonin gene-related peptide, two endogenous peptides that might be released concomitantly by TES. Neither peptide caused marked effects on contractile responses to TES or tachykinins when applied to the isolated tissues. Addition of inhibitors of serine proteases, aminopeptidases, acetylcholinesterase and angiotensin-converting enzyme failed to further potentiate responses to TES in the presence of thiorphan. Therefore, the contractile response does not appear to be further modified by the activity of these peptidases. Neuropeptide gamma, but not neuropeptide K, was potentiated by thiorphan. The data suggest that peptides that are not substrates for NEP (for example, neuropeptide K) may also be released by TES from capsaicin-sensitive neurons to cause contraction. This may, at least in part, explain the quantitative difference in potentiation by NEP inhibitors of contractile responses to TES and to exogenously applied NEP-sensitive tachykinins in the guinea pig hilar bronchus.
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PMID:Pharmacologic studies on the differential influence of inhibitors of neutral endopeptidase on nonadrenergic, noncholinergic contractile responses of the guinea pig isolated hilar bronchus to transmural electrical stimulation and exogenously applied tachykinins. 239 13

We have examined pulmonary effects of bradykinin (Bk) in vivo and in vitro in guinea pigs and their potential inhibition by antagonists of Bk B1 and B2 receptors. Bk was a potent bronchoconstrictor in vivo and caused contractions of isolated, epithelium-denuded trachealis. D-Arg[Hyp3,D-Phe7]-Bk (NPC567) and D-arg[Hyp3,Thi5,8,D-Phe7]-Bk (NPC349), B2 receptor antagonists, were weak inhibitors of Bk-induced bronchoconstriction in vivo and were virtually inactive as antagonists of Bk-induced airway smooth muscle contraction. Several other B2 antagonists as well as B1 antagonist, des-Arg9-[Leu8]-Bk, did not inhibit Bk-induced tracheal contraction. The B1 receptor agonist des-Arg9-Bk was without effect on tracheal tone. Tracheal responses to Bk were unaffected by antagonists of muscarinic, histamine, serotonin, and catecholamine receptors. The inability of the antagonists to inhibit Bk is unlikely to be due to their degradation, because NPC567 was only weakly active in the presence of inhibitors of kininase I (EC 3.4.11.2), kininase II (EC 3.4.15.1), and neutral endopeptidase (EC 3.4.24.11). These studies were corroborated by ligand binding experiments in guinea pig and ovine airways. In [3H]Bk binding, the Bk antagonists had no effect in guinea pig trachea, slightly displaced [3H]Bk in ovine trachea, and inhibited approximately 60% of total specific binding in lung. des-Arg9-[Leu8]-Bk and several other agents, including atropine, neurokinin A, substance P, and vasoactive intestinal peptide, had no effect on lung Bk binding. Bk and its analogs were not degraded during the binding assay. These data suggest that pulmonary tissue, particularly in the large airways, contains a novel Bk binding site, a B3 receptor, which may be involved in Bk-induced bronchoconstriction.
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PMID:Evidence for a pulmonary B3 bradykinin receptor. 254 44

Human cultured T lymphocytes of the Jurkat line and myeloma cells of the U266 line cleaved the 28 amino acid vasoactive intestinal peptide (VIP1-28) preferentially at three sites with time- and temperature-dependence. The fragments VIP4-28 and VIP23-28) from an endopeptidase activity, and VIP15-28 from a trypsin-like peptidase, together represented a range of 26-65% of the VIP1-28 recovered after 2 hr at 37 degrees C or 4 hr at 22 degrees C, based on the absorbance of purified peptides and the radioactivity of [125I]Tyr10 VIP1-28. The endopeptidase activity was associated with membranes recovered after disruption of U266 cells by nitrogen cavitation. Pretreatment of intact U266 and Jurkat cells with diisopropylfluorophosphate (DFP) and the subsequently isolated subcellular particles with phenylmethylsulphonylfluoride (PMSF) and leupeptin inhibited the trypsin-like enzyme by a mean of 80%, without suppressing endopeptidase activity. In contrast, 0.1 mM DL-thiorphan and phosphoramidon blocked selectively a range of 35-70% of the endopeptidase activity in membrane preparations and intact cells. The capacity of lymphocytes to degrade VIP1-28 may substantially alter the effects of this neuromediator on functions of some subsets of T and B cells.
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PMID:Unique pattern of cleavage of vasoactive intestinal peptide by human lymphocytes. 265 11

Relaxation of guinea-pig trachea was induced by vasoactive intestinal peptide (VIP) or electrical field stimulation. Mechanical removal of airway epithelium potentiated responses to VIP and attenuated inhibitory non-adrenergic, non-cholinergic (i-NANC) responses to low stimulation frequencies. Phosphoramidon potentiated responses to VIP in intact but not de-epithelialised preparations, and had no effect on i-NANC responses. These findings suggest that neutral endopeptidase localised to the epithelium may modulate relaxation of guinea-pig trachea induced by VIP but not i-NANC nerve-stimulation.
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PMID:Epithelial modulation of non-adrenergic, non-cholinergic and vasoactive intestinal peptide-induced responses: role of neutral endopeptidase. 269 41

Human recombinant enkephalinase (neutral endopeptidase, EC 3.4.24.11) cleaved synthetic vasoactive intestinal peptide (VIP1-28) with time-and peptidase concentration-dependence, which left less than 30% intact after 30 micrograms was incubated at 37 degrees C with 0.1 micrograms and 10 micrograms of peptidase for 120 min and 15 min, respectively. The rank order of relative rates of peptidolysis amino-terminal to hydrophobic amino acids was Ala4 and Val5 greater than Tyr22 and Ile26 much greater than Leu13 and Met17. The many effects of VIP1-28 on epithelial cell and leukocyte functions thus may be influenced by degradation of the mediator by enkephalinase at the surface of target cells.
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PMID:Preferential cleavage of amino- and carboxyl-terminal oligopeptides from vasoactive intestinal polypeptide by human recombinant enkephalinase (neutral endopeptidase, EC 3.4.24.11). 292 42

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