UNIPROT:P20366 - FACTA Search

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)

When canine tracheal explants were incubated in culture medium 199 in the presence of D-glucosamine labeled with carbon-14 for 24 hours, a significant amount of radioactivity was found in the secreted macromolecules. When kallidin was present in the culture medium, the amount of radioactivity associated with a portion of these macromolecules was increased. A met-lys-bradykinin derivative had a similar effect, but bradykinin did not. When hexadimethrine, an inhibitor of kinin formation, was present in the culture medium, the amount of radioactivity in the macro-molecular fraction was decreased. Substance P and the structurally related polypeptides, physalaemin and eledoisin, also enhanced the production of tracheal macromolecules; they were several-fold more active than kallidin. The effect of polypeptides on the activities of glycosyltransferases was also investigated. One of the enzymes present in a microsomal fraction prepared from the mucosal lining of canine trachea was uridine diphosphate (UDP)-galactose:mucin galactosyltransferase, which required a 25 mM concentration of maganese ions to be present in the assay mixture to obtain maximal enzymatic activity. When the concentration of manganese ions was decreased to 2.5 mM, there was less than one third of the maximal enzymatic activity, but full activity could be restored by the addition of kallidin. Several other basic polypeptides had a similar effect on the enzymatic activity. Kallidin had little or no effect on the activities of several other glycosyltransferases. The results suggest that basic polypeptides may be important in controlling the synthesis and/or release of respiratory glycoproteins.
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PMID:Effect of kallidin, substance P, and other basic polypeptides on the production of respiratory macromolecules. 85 19

1. Intracellular recordings were made from myenteric AH neurones of the guinea-pig ileum in vitro. Some experiments were done with a single-electrode voltage clamp to measure membrane currents. 2. Substance P (SP) applied by superfusion (10 nM-300 nM), pressure ejection (100 nM-10 microM, 760 mmHg, for 10-20 ms) or ionophoresis (1 mM, 100 nA, for 0.2 s) caused a membrane depolarization and an inward current, associated with a decrease in potassium conductance. 3. The SP-induced depolarization was abolished within 15 min by superfusion with calcium-free/high-magnesium (10 mM) solution or solutions containing cobalt, manganese or nickel at 1-3 mM. The response persisted even after 40-60 min of superfusion with calcium-free/normal-magnesium (1.2 mM) solution. In all these solutions, synaptic potentials were abolished within 5 min. 4. SP inhibited a slowly developing outward current and an outward tail current during and after a long depolarizing command pulse (2-10 s), and an outward after-current following single or multiple brief depolarizing command pulses (10-50 ms). These outward currents were suppressed in calcium-free/high-magnesium solution. 5. SP depressed both a calcium-dependent slow after-hyperpolarization following the action potential and an outward after-current preceded by a brief depolarizing command. Both the SP-induced depolarization and the SP-induced inward current were augmented when the peptide was pressure-ejected during the recovery phase of the slow after-hyperpolarization and during that of the slow outward after-current, but both of them were inhibited or almost abolished when SP was applied immediately after spike initiation or a brief depolarizing command. 6. The SP-induced response was depressed by barium (1-2 mM). The SP response was not inhibited by tetraethylammonium at low concentrations (5-10 mM), but was depressed at high concentration (20 mM). 7. Superfusion (1-10 nM) or pressure application of a calcium ionophore, A23187, inhibited or even reversed the SP depolarization and the SP-induced inward current. 8. These results indicate that SP inhibits activation of a calcium-dependent potassium conductance which contributes to both the slow after-hyperpolarization and the resting membrane potential. SP may affect the process by which calcium activates this potassium conductance.
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PMID:Substance P inhibits activation of calcium-dependent potassium conductances in guinea-pig myenteric neurones. 137 30

Using intracellular recording, we examined the effects of three mammalian tachykinins, substance P (SP), neurokinin A (NKA), and neurokinin B (NKB), on sympathetic neurons of isolated rat coeliac-superior mesenteric ganglia (C-SMG). The 3 tachykinins elicited two distinct depolarizing responses in ganglion cells: fast depolarization with time-to-peak of 1-2 sec and duration of 5-10 sec, and slow depolarization with time-to-peak of about 20 sec and duration of 120-140 sec. Both fast and slow responses persisted in a solution containing low Ca2+ and high Mg2+ or tetrodotoxin, which indicates that the tachykinins directly act on ganglion cells to produce fast and slow depolarizations. The two types of tachykinin-induced responses exhibited clearly distinguishable properties. The membrane conductance was increased during the fast response, but not significantly changed, slightly decreased or sometimes increased during the slow response. Within certain range of membrane potential, the amplitude of fast response increased upon membrane hyperpolarization and decreased upon depolarization of ganglion cells. In contrast, the amplitude of slow response associated with membrane conductance decrease was increased with membrane depolarization and decreased with hyperpolarization. The fast response was markedly suppressed in a Na(+)-deficient solution, a solution containing nominally zero Ca2+ (plus 0.1 mM EGTA in some cases), and in a solution containing Cd2+ or Mn2+, whereas the slow response was not affected in these solutions and was augmented in some cells in K(+)-free solution. Thus it seems that the increase in Ca(2+)-dependent cationic conductance underlies the fast response and that the slow response is produced at least in part by suppression of certain K+ channels. The fast response progressively decreased in amplitude upon repeated application of the peptides with short intervals, whereas the slow response was rather augmented by repeated application. Lowering the temperature markedly depressed the slow response, while the fast response remained almost unaffected. It is therefore likely that the fast and slow depolarizations are mediated by two different subtypes of tachykinin receptors or a single class of receptors linked with two different intracellular mechanisms. Measurement of tachykinins in several sympathetic ganglia by combined use of HPLC and radioimmunoassay revealed that the highest amount of SP occurs in the C-SMG where the content of SP (136.0 pmol/g protein) was higher than those of NKA (44.3) and NKB (18.7). SP thus appears to function as a major tachykinin in rat C-SMG.
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PMID:Fast and slow depolarizations produced by substance P and other tachykinins in sympathetic neurons of rat prevertebral ganglia. 138 52

Aminopeptidase P (EC 3.4.11.9) was purified from rat brain cytosol. A subunit Mr of 71,000 was determined for the reduced, denaturated protein whereas an Mr of 143,000 was determined for the native enzyme. The purified aminopeptidase P selectively liberated all unblocked, preferentially basic or hydrophobic ultimate amino acids from di-, tri- and oligopeptides with N-terminal Xaa-Pro- sequences. Corresponding peptides with penultimate Ala instead of Pro were cleaved with much lower rates; oligopeptides with residues other than Pro or Ala in the penultimate position appeared not to be substrates for the enzyme. Several bioactive peptides with Xaa-Pro sequences, especially bradykinin, substance P, corticortropin-like intermediate lobe peptide, casomorphin and [Tyr]melanostatin were shortened by the N-terminal amino acid by aminopeptidase P action. Rat brain aminopeptidase P was optimally active at pH 7.6-8.0 in the presence of Mn2+. Chelating agents and SH-reacting reagents inhibited the enzyme, but common inhibitors of aminopeptidases, like amastatin or bestatin, of prolidase or of dipeptidyl peptidases II and IV, like N-benzoyloxycarbonyl-proline or epsilon-benzyl-oxycarbonyl-lysyl-proline, as well as antibiotics like beta-lactam ones, bacitracin or puromycin, had little or no effect.
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PMID:Aminopeptidase P from rat brain. Purification and action on bioactive peptides. 164 59

Membranes isolated from a murine fibroblast B82 cell line (SKLKB82#3) transfected with the bovine stomach cDNA pSKR56S exhibited binding of [His(125I)1]neurokinin A (125I-NKA) to a single population of sites with a Bmax of 147 fmol/mg of protein and a Kd of 0.59 nM. Control cell lines had little or no specific binding. The ligand binding in SKLKB82#3 cells was reversible and was inhibited by peptides in the potency rank of neuropeptide gamma greater than neuropeptide K greater than neurokinin A greater than [10-norleucine]neurokinin A-(4-10) greater than substance P much greater than senktide (succinyl-Asp-Phe-MePhe-Gly-Leu-Met-NH2). Specific binding was enhanced by Mn2+, Mg2+, and Ca2+ and was inhibited by guanine nucleotide analogues. Thus, SKLKB82#3 cells have been transfected with NK2 receptors that have become associated with an endogenous guanine nucleotide-binding protein. In comparison with membranes from the hamster urinary bladder, a tissue enriched in NK2 receptors, NK2 receptor antagonists displayed markedly different potencies, either more or less potent, in inhibiting specific binding in membranes of the transfected cells. Furthermore, inhibition of 125I-NKA binding by nucleotide analogues was markedly different in SKLKB82#3 cells compared with hamster bladder tissue. The different binding profile in the cells is not due to an artefact introduced during cDNA transfection because a similar profile was also observed in bovine stomach membranes. These results may indicate the existence of two distinct NK2 receptors.
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PMID:Characterization of a tachykinin peptide NK2 receptor transfected into murine fibroblast B82 cells. 184 6

[3H]Physalaemin [( 3H]PHY) binds to a single class of noninteracting sites on rat submaxillary gland membranes suspended in high ionic strength media with a KD of 2.7 nM, a Bmax of 240 fmol/mg of protein, and low nonspecific binding. The relative potencies of substance P (SP) and its fragments in competing with [3H]PHY correlate with their relative salivation potencies. This indicates that [3H]PHY interacts with a physiologically relevant SP receptor. In low ionic strength media, the KD of [3H]PHY does not change, but SP and some of its fragments are more potent than PHY in competing with [3H] PHY. Computer-assisted analysis of [3H]PHY and [3H]SP binding in high and low ionic strength media demonstrated that both peptides are equipotent in high ionic strength but that the affinity of SP increases by 70-fold in low ionic strength. The SP fragments that contain a basic residue in positions 1 and/or 3 also display an increased affinity in low ionic strength. These findings document that [3H]PHY binding in high ionic strength (mu = 0.6) accurately reflects the pharmacological potencies of agonists on the SP-P receptor. The binding of [3H]PHY, like that of [3H]SP, increases by the addition of divalent cations (Mg2+ greater than Ca2+ greater than Mn2+). Guanine nucleotides decrease [3H]PHY binding by decreasing the Bmax to the same level (160 fmol/mg of protein), in the presence or absence of Mg2+.
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PMID:Specific binding of [3H-Tyr8]physalaemin to rat submaxillary gland substance P receptor. 257 11

Substance P enhanced guanylate cyclase (E.C.4.6.1.2) two- to fourfold in pancreas, small intestine, cerebellum, liver, kidney, and lung. Dose response relationship revealed that substance P caused a maximal augmentation of guanylate cyclase activity at concentration of 1 micromolar. Increasing substance P's concentration to the millimolar range caused no further increase in activity. There was an absolute cation requirement for substance P's enhancement of guanylate cyclase activity. Substance P could increase guanylate cyclase activity with either calcium or manganese in the incubation medium but more augmentation was observed with manganese. The data in this investigation suggest that guanylate cyclase may play a role in the mechanism of action of substance P.
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PMID:Cation-dependent substance P activation of the enzyme guanylate cyclase. 258 May 27

A variety of pharmacological agents were used as experimental probes to determine with greater precision the site(s) of damage to cerebral adenylate cyclase as a consequence of postischemic reperfusion in the gerbil. A paradigm of 60-min bilateral ischemia followed by 40-min reperfusion results in a decreased sensitivity of the catalytic site of adenylate cyclase to Mn2+. Likewise, the GTP-transducer site (guanine nucleotide regulatory or G protein) revealed depressed responses to GTP in the absence or presence of norepinephrine, dopamine agonists, substance P, yohimbine, and cholera and pertussis toxins. Moreover, a crude preparation of GTPase disclosed that damage elicited by postischemic reperfusion was directed to the higher-affinity form of this enzyme, which is associated with the overall function of the guanine nucleotide regulatory protein. Injury to adenylate cyclase was unrelated either to the ability of adrenergic ligands to bind to associated receptor sites or to the capacity of the brain to generate visual evoked potentials in response to visual stimuli.
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PMID:Further probes into the molecular sites of damage to cerebral adenylate cyclase following postischemic reperfusion. 310 40

Increasing concentrations of KCl caused a progressive stimulation of contractile activity in guinea-pig jejunal longitudinal smooth muscle strips, accompanied by increased production of [3H]inositol phosphates in smooth muscle fragments pre-labelled with myo-[3H]inositol. The concentration-response curve for contractility lay to the left of that for [3H]inositol phosphate production. Both responses showed a dependency on the presence of Ca2+ in the incubation medium. K+-induced contractility was abolished by D600 or by Mn2+, whereas stimulated [3H]inositol phosphate formation persisted in the presence of these Ca2+ channel blockers. The simultaneous addition of high KCl concentrations together with a maximal concentration of neurotransmitter (carbamylcholine of substance P) produced additive stimulation of [3H]inositol phosphate production. Enhanced production of [3H]inositol phosphates was also observed under a variety of conditions known to cause smooth muscle depolarisation, including omission from the incubation medium of Na+ or K+, and in response to ouabain or veratridine. The results suggest that inositol lipid hydrolysis in visceral longitudinal smooth muscle may be triggered by depolarisation, an event which causes the entry of Ca2+ into the cell but which is not generally believed to cause the release of stored Ca2+ within the cell. However, calcium entry seems not to be essential for the effect on inositol lipid hydrolysis.
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PMID:Depolarisation of guinea-pig visceral smooth muscle causes hydrolysis of inositol phospholipids. 373 86

Carbamylcholine caused a marked, concentration-dependent stimulation of [3H]Ins P, [3H] InsP2 and to a lesser extent [3H]InsP3 production in guinea-pig longitudinal smooth muscle prelabelled with myo-[3H]inositol. Accumulation of these three inositol phosphates showed differential sensitivity to LiCl. Muscle contraction was apparent at lower concentrations of carbamylcholine. Both responses were mediated via muscarinic-type receptors. An association of inositol phosphate production and contractility was also observed in response to substance P, histamine and noradrenaline, the latter via an alpha-adrenergic mechanism. The Ca2+-channel agonist CGP 28392 failed to stimulate inositol phosphate production despite inducing a contractile response. Carbamylcholine -induced inositol phosphate production persisted in the presence of D600 or Mn2+ despite loss of contractile activity. However, both responses showed a similar, marked dependence on the presence of Ca2+ in the extracellular medium. Mn2+ could restore basal and stimulated inositol phosphate production in low Ca2+ solutions but could not substitute for Ca2+ in restoring contractility. The results suggest that stimulated inositol lipid hydrolysis in longitudinal smooth muscle does not result from Ca2+ entry into the tissue, although the response does depend on the concentration of divalent cations in the extracellular medium. This dependency may be related to the maintenance of membrane potential and possibly phospholipid conformation.
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PMID:Relationship between stimulated inositol lipid hydrolysis and contractility in guinea-pig visceral longitudinal smooth muscle. 401 78

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