Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The unlabeled substance P (SP) antibody-peroxidase-antiperoxidase reaction was used on tissue prior to embedding in epoxy reins for ultrastructural identification of the SP cell and its immunoreactive granules. The SP cell is 10-20 mum in diameter and has sparse cytoplasm with numerous intensely reactive SP granules 100-300 nm across, large clear vacuoles, elaborate smooth endoplasmic reticulum, fragmentary rough endoplasmic reticulum, dispersed ribosomes, few mitochondria, and a modest Glogi apparatus. The large SP-reactive granules are discharged into the extracellular space, either with cell membrane intact or as unbound dense material. The membrane-bound dense granucles are transported intact through endothelial cells into the blood or are picked up by Schwann cells and fibroblasts. Other SP-reactive granules lose their limiting membranes, fragment, and then disperse into fine immunoreactive grains that bind to the extracellular matrix and to collagen. Dispersed SP-reactive granules are transported within myriad pinocytotic vesicles across endothelial cells with numerous luminal plications and are discharged into the blood. Pinocytosis of dispersed SP-reactive material, that can be detected intracellularly, also occurs in Schwann cells and fibroblasts. The SP axons to the substantia gleatinosa are unmyelinated or finely myelinated. Their synaptic varicosities display a generalized axoplasmic immunoreactivity, which also occurs in and around small vesicles. The larger SP synaptic vesicles are intensely reactive.
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PMID:Ultrastructural identification of substance P cells and their processes in rat sensory ganglia and their terminals in the spinal cord by immunocytochemistry. 33 57

In addition to the cholinergic and adrenergic nervous systems, a new noncholinergic and nonadrenergic nervous system has recently been described, involving the afferent sensory nerves in the airways. Many irritants (dusts, chemicals) stimulate these sensory nerves to release neuropeptides. Among these neuropeptides, the "tachykinins" exist in sensory nerves of airways (substance P, neurokinin A). These tachykinins have the ability to affect multiple cells in the airways and to provoke many responses including smooth muscle contraction, mucus secretion, plasma extravasation and neutrophil adhesion. This series of effects is termed "neurogenic inflammation". Using the respiratory tract as experimental model, it has been shown that: a) substance P (SP) is widely distributed in afferent fibers in the vagus, b) SP-immunoreactivity has been demonstrated in the epithelium, in airway smooth muscle, near blood vessels and submucosal glands, c) substance P and other tachykinins are released from sensory nerve terminals during stimulation electrically and by capsaicin, d) local administration of substance P mimics the effect of sensory nerve stimulation, e) smooth muscle contraction, gland secretion and plasma leakage, normally induced by nerve stimulation or noxious stimulus, are absent in tissues pretreated with the substance P depleting agent capsaicin or with tachykinin antagonists. These findings indicate that peptidergic nerve fibers are involved in the local regulation of tone of smooth muscle, regulation of blood flow, vascular permeability, and mucus secretion. We released that degradative mechanisms could play an important role in modulating tachykinin effects, just as acetylcholinesterase modulates effects of acetylcholine released from nerve terminals. We discovered that a membrane-bound enzyme called enkephalinase (also called neutral endopeptidase, EC 3, 4, 24, 11), located on specific cells that contain tachykinin receptors, modulate the action of tachykinins by cleaving and thus inactivating them. Our studies demonstrate that viral infection or cigarette smoke potentiate various effects of tachykinins by decreasing tissue enkephalinase activity. Thus, down-regulation of enkephalinase activity in specific tissues can modify the extent of neurogenic inflammation, and this modification could be important in the pathogenesis of diseases in airways and other tissues that contain tachykinins.
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PMID:[The role of enkephalinase (neutral endopeptidase) in neurogenic inflammation of the respiratory tract]. 134 Apr 78

A membrane-bound metallo-endopeptidase that hydrolyzes human parathyroid hormone (1-84) and reduced hen egg lysozyme between hydrophilic amino acid residues was isolated from rat kidney [Yamaguchi et al. (1991) Eur. J. Biochem. 200, 563-571]. In this study, the hydrolyses of various peptide hormones and neuropeptides by the metallo-endopeptidase were examined using an automated gas-phase protein sequencer. The purified enzyme hydrolyzed the oxidized insulin B chain and substance P most rapidly, followed by big endothelin 1, neurotensin, angiotensin 1, endothelin 1, rat alpha-atrial natriuretic peptide and bradykinin, in this order. The enzyme mainly cleaved these peptides at bonds involving a hydrophilic amino acid residue. However, it cleaved bonds between less hydrophilic amino acid pairs in several short peptides, e.g. at the His5-Leu6 bond in oxidized insulin B chain, the Ile28-Val29 bond in big endothelin-1 and the Ile5-His6 and Phe8-His9 bonds in angiotensin 1. The enzyme cleavage sites of oxidized insulin B chain and angiotensin 1 were different from the reported sites cleaved by meprin and by endopeptidase 2, respectively. Kinetic determination of bradykinin hydrolysis by the purified enzyme yielded values of Km = 18.1 microM and kcat = 0.473 s-1, giving a ratio of kcat/Km = 2.62 x 10(4) s-1.M-1. The Km value was about 20-fold lower than that reported for meprin and endopeptidase 2. These results indicate that the membrane-bound metallo-endopeptidase from rat kidney is distinguished from meprin and endopeptidase 2 in its substrate specificity and is not parathyroid hormone specific, but has potential capacities to inactivate various biologically active peptide hormones and neuropeptides in vivo.
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PMID:A membrane-bound metallo-endopeptidase from rat kidney. Characteristics of its hydrolysis of peptide hormones and neuropeptides. 137 51

The purpose of this study was to determine whether substance P (SP), neurokinin A (NKA), and neurokinin B (NKB) induce the release of neutrophil chemotactic activity (NCA) from bovine bronchial epithelial cells (BBEC) and whether neutral endopeptidase (NEP), a membrane-bound metalloenzyme that hydrolyzes tachykinins, modulates these effects. BBEC monolayers were exposed to SP, NKA, and NKB in the absence or presence of phosphoramidon (10(-6) M), a selective NEP inhibitor, for 72 h. Using a modified blind-well in vitro neutrophil chemotaxis assay, we found that tachykinin-exposed BBEC culture supernatant fluids induced significant neutrophil chemotaxis compared with supernatants obtained from unstimulated BBEC. Maximal effect was observed after 48 h of incubation and at SP concentration of 10(-13) M [92 +/- 3 (SP) vs. 64 +/- 2 (media) cells/high-power field (HPF), mean +/- SE, n = 7, P less than 0.05]. Release of NCA was mediated by the COOH-terminal of the SP molecule. The rank order of potency of tachykinins in inducing release of NCA was SP greater than NKA = NKB. SP-induced response was significantly potentiated by phosphoramidon (109 +/- 3 vs. 92 +/- 3 cells/HPF, n = 7, P less than 0.05), whereas other proteinase inhibitors had no effect. The released NCA was composed of protein and lipid-soluble components. These data indicate that mammalian tachykinins induce the release of NCA from BBEC and that NEP modulates these effects. We suggest that tachykinins regulate neutrophil recruitment into the lower respiratory tract, in part, by inducing the release of NCA from airway epithelial cells.
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PMID:Bronchial epithelial cells release neutrophil chemotactic activity in response to tachykinins. 138 Nov 52

There are four main classes of membrane-bound receptors: receptors which are also enzymes (tyrosine protein-kinase or guanylate cyclase), receptor channels, receptors coupled to G proteins (GTP binding proteins) and receptors with unknown transduction mechanisms. Receptors coupled to G proteins which have been cloned, constitute a superfamily of proteins containing seven hydrophobic transmembrane helices. The binding site of the ligand is within the hydrophobic core of the protein and the domain of interaction of the G proteins is constituted by the N- and C-terminal parts of the third intracellular loop, plus the C-terminal tail, adjacent to the transmembrane VII. G proteins themselves are also members of another superfamily. These proteins have highly conserved domains constituting the GTP binding site and they interact with the receptors by their C-terminal parts. Compounds such as mastoparan, substance P and 48/80 directly stimulate G proteins, an action which probably mediates their exocytotic properties. A high degree of homologies between G protein-linked receptors explains the non-specificity of some antagonists (like beta-adrenergic blocking agents on 5-HT1 receptors). The discovery of new members of the G protein-linked receptors which have not yet been pharmacologically characterized, raises the problem of receptor classification.
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PMID:Coupling of receptors to G proteins, pharmacological implications. 166 41

A membrane-bound enkephalin-degrading aminopeptidase was purified from the longitudinal muscle layer of the guinea pig small intestine by four steps of column chromatography using L-tyrosine beta-naphthylamide. The molecular weight of the enzyme was estimated to be 105,000 by gel filtration. The maximum activity was observed between pH 6.5 and 7.0. The Km value for leucine-enkephalin was 137 microM. The aminopeptidase activity toward aminoacyl beta-naphthylamide substrates was restricted to basic, neutral, and aromatic aminoacyl derivatives. No action was detected on acidic amino acid and proline derivatives. The enzyme was potently inhibited by the aminopeptidase inhibitors actinonin, amastatin, and bestatin, and bioactive peptides such as angiotensin III, substance P, and Met-Lys-bradykinin. The enzyme activity was also inhibited by the antibody against the purified serum enkephalin-degrading aminopeptidase of guinea pig at concentrations similar to those at which activity was observed toward serum enkephalin-degrading aminopeptidase and renal aminopeptidase M. The enzyme rapidly hydrolyzed Leu-enkephalin and Met-enkephalin with the sequential removal of the N-terminal amino acid residues. The enzyme also hydrolyzed two enkephalin derivatives, angiotensin III and neurokinin A. However, neurotensin, substance P, and bradykinin were not cleaved. These properties indicated that the membrane-bound enkephalin-degrading aminopeptidase in the longitudinal muscle layer of the small intestine is similar to the serum enkephalin-degrading aminopeptidase and resembles aminopeptidase M. It is therefore suggested to play an important role in the metabolism of some bioactive peptides including enkephalin in peripheral nervous systems in vivo.
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PMID:Enkephalin-degrading aminopeptidase in the longitudinal muscle layer of guinea pig small intestine: its properties and action on neuropeptides. 167 58

Enkephalinase (EC 3.4.24.11) is a naturally occurring, membrane-bound peptidase that degrades substance P in vivo and in vitro. Addition of this neutral endopeptidase to a rabbit eye cup model partially inhibits substance P-induced contraction of the iris sphincter muscle. Inactivation of substance P is reversed by thiorphan, a specific inhibitor of enkephalinase. These results show that enkephalinase degradation of substance P produces metabolites that are physiologically inactive in iris contraction. We also observed that atropine acts synergistically with enkephalinase to completely abolish substance P-induced iris contraction suggesting that the action of substance P on the iris contains an acetylcholine-stimulatory effect which is not lost by enkephalinase treatment.
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PMID:Recombinant enkephalinase effectively inhibits substance P-induced miosis in the rabbit eye cup model. 169 72

Aminoterminal fragments of substance P (SP) have been previously shown to produce effects distinct, and often opposite, from those produced by the C-terminal of SP. The present investigation was initiated to determine whether N-terminal fragments interact at binding sites distinct from the neurokinin-1 (NK-1) receptor where the C-terminal sequence of SP binds with high affinity, and distinct from mu-opiate receptors, where we have previously shown the N-terminal sequence of SP to interact. A tritium-labeled aminoterminal heptapeptide of SP, 3H-SP(1-7), was synthesized, purified, and used to characterize the binding of a variety of fragments of SP and opioids in the mouse brain and spinal cord membranes. Using the reduction of SP-induced caudally directed biting and scratching behaviors as an index of biological activity, 3H-SP(1-7) was shown to be equipotent to unlabeled SP(1-7). 3H-SP(1-7) was found to bind reversibly to a saturable population of sites. Scatchard analyses of concentration-dependent saturation of binding in the brain indicated a single population of noninteracting sites with a high affinity (Kd = 2.5 nM) and a low capacity (Bmax = 29.2 fmol/mg protein). Kinetic analyses indicated an apparent dissociation equilibrium constant of 2.1 nM. Two populations of binding sites were observed in the spinal cord, one with a very high affinity (Kd = 0.03 nM) and low capacity (Bmax = 0.87 fmol/mg protein), and the other with lower affinity (Kd = 5.4 nM) and intermediate capacity (Bmax = 19.6 fmol/mg protein). Specific agonists for NK-1, NK-2, and NK-3 and delta opioid receptors, carboxyterminal fragments of SP, and a variety of other peptides did not compete at the 3H-SP(1-7) binding sites, but structurally related N-terminal peptides and (D-Ala2, NMe-Phe4, Gly-ol)-enkephalin (DAMGO) were active in displacing the ligand. The binding site for 3H-SP(1-7) appeared to be a membrane-bound complex whose specific binding was dependent on the integrity of both proteins and phospholipids. These studies are the first to characterize the binding sites for the SP N-terminal partial sequence of SP that can be generated by metabolism in vivo. The expanding body of evidence for distinct biological activities of N-terminal metabolites of SP, together with the current characterization of N-terminal binding, strongly support the existence of an N-terminal-directed SP receptor. The characteristics of SP(1-7) binding sites are consistent with those expected for an SP N-terminal receptor.
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PMID:Specific binding of substance P aminoterminal heptapeptide [SP(1-7)] to mouse brain and spinal cord membranes. 170 82

Calcitonin gene-related peptide (CGRP) and substance P (SP) are released from sensory nerves upon exposure to irritating stimuli. Neutral endopeptidase (NEP), a membrane-bound peptidase, cleaves many peptides including SP, thereby limiting their biological actions. Recombinant NEP cleaved CGRP1 approximately 88-fold less rapidly than it cleaved SP. The slow cleavage by NEP of CGRP compared to SP suggests that this enzyme is likely to have weaker physiologic effects on CGRP than have been demonstrated for SP.
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PMID:Catabolism of calcitonin gene-related peptide and substance P by neutral endopeptidase. 171 55

Aminopeptidase M (AmM; EC 3.4.11.2) is a membrane-bound peptidase present on renal brush border and vascular plasma membrane. In the present study, AmM, purified from rabbit kidney cortex, produced a single immunoprecipitin line against AmM antisera, hydrolyzed alanyl-, leucyl- and arginyl-beta-naphthylamides at rates of 5.1 +/- 0.5, 3.9 +/- 0.5 and 2.6 +/- 0.3 mumol/min/mg, respectively, exhibited little or no alpha-glutamyl-, aspartyl- or glycyl-prolyl-naphthylamidase activities (less than or equal to 0.14 mumol/min/mg), and was inhibited by o-phenanthroline, amastatin (IC50 = 400 nM) and bestatin (IC50 = 6 microM). The alanyl-naphthylamidase activity of unfractionated rabbit plasma was found to be identical to purified AmM regarding relative rates of hydrolysis of alanyl-, leucyl- and arginyl-naphthylamides (100:79:42), pH optimum, and inhibition profile. In comparative studies with the purified enzyme, immunoreactive AmM accounted for essentially all of the alanyl-2-naphthylamidase activity of rabbit plasma. N-Terminal metabolism of (Met5)enkephalin by purified renal AmM was 3.92 +/- 0.69 mumol/min/mg, followed by somatostatin (1.25 mumol/min/mg), hepta(5-11)substance P (1.14 +/- 0.13 mumol/min/mg), (Asn1)angiotensin II (1.11 +/- 0.06 mumol/min/mg), angiotensin III (0.45 +/- 0.04 mumol/min/mg) and des(Asp1)-angiotensin I (0.36 +/- 0.04 mumol/min/mg). In contrast, substance P, bradykinin, (Sar1,Ala8)angiotensin II and neurokinin analogs containing modified N-termini (e.g. Ac-Arg) were resistant to hydrolysis by AmM. Peptide degradation was optimal at neutral pH and was inhibited by amastatin (IC50 = 200 nM) and bestatin (IC50 = 5 microM). Apparent Km values ranged from 15.7 +/- 0.4 microM for angiotensin III to 102 +/- 2 microM for (Met5)enkephalin. These data support a significant role for vascular and plasma AmM in the metabolism of circulating vasoactive peptides.
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PMID:Metabolism of vasoactive peptides by plasma and purified renal aminopeptidase M. 197 75


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