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Query: UNIPROT:P20366 (
substance P
)
21,176
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Guanine
nucleotide binding proteins (G proteins) sensitive to pertussis toxin (PTX) mediate the muscarinic receptor responses in several tissues. Therefore, the present study sought to investigate whether smooth muscle contractions and/or endothelium-dependent relaxations in response to acetylcholine (ACh) and other agonists were sensitive to PTX. In endothelium-denuded rabbit pulmonary artery rings, ACh, clonidine and serotonin produced concentration-dependent contractions which were markedly inhibited in nominally Ca+(+)-free medium and abolished in the presence of ethylene glycol bis (beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (0.2 mM). In endothelium-denuded arterial rings obtained from rabbits treated in vivo with PTX (5 micrograms/kg i.v., 5 days before sacrifice) maximum contractions to ACh, clonidine and serotonin were inhibited by 77, 67 and 35%, respectively. Contractions induced with KCl (10-40 mM) were also abolished in Ca+(+)-free medium, but they were not affected by PTX. Endothelium-dependent relaxations of phenylephrine-contracted pulmonary arteries in response to ACh adenosine triphosphate and
substance P
were also reduced or abolished upon removal of extracellular Ca++. However, the endothelium-dependent relaxations were not affected by PTX. These data demonstrate that contractions of pulmonary arterial smooth muscle cells after stimulation through muscarinic receptors, alpha adrenoceptors and serotonin receptors require the influx of extracellular Ca++. This receptor-stimulated Ca++ influx is likely to be regulated by a PTX-sensitive G protein. Also, the induction of release of relaxing factor from endothelial cells of the pulmonary artery via muscarinic, purinergic or
substance P
receptors requires extracellular Ca++. However, in these cells, a different mode of signal transduction, insensitive to PTX, seems to be involved.
...
PMID:Pertussis toxin inhibits contractions but not endothelium-dependent relaxations of rabbit pulmonary artery in response to acetylcholine and other agonists. 215 2
[3H]
Substance P
([3H]SP), in a high ionic strength incubation medium, binds to a single class of saturable, noninteracting binding sites on rat submaxillary gland membranes with a KD = 2.8 +/- 0.34 nM and maximum binding (Bmax) = 220 +/- 31 fmol/mg of protein. The rank order of potency of various tachykinins, SP fragments and analogs to compete against [3H]SP is correlated with their potency to induce salivation. These findings indicate that, under the conditions described, [3H]SP binds to a physiologically relevant
tachykinin
receptor of the SP-P subtype. [3H]SP binding increases by 35% in the presence of optimal concentrations of Mn++ and Mg++ whereas guanine nucleotides reduce [3H]SP binding. The effect produced by either divalent cations or guanine nucleotides is due to increasing or decreasing the Bmax, respectively, without changing the affinity of [3H]SP.
Guanine
nucleotides reduce the Bmax of [3H]SP to the same level in the presence or absence of divalent cations, indicating that divalent cations increase the population of SP receptors that are sensitive to guanine nucleotides. In low ionic strength media, and when the nonspecific binding is defined by 1 microM SP, [3H]SP binds to two sites: a high affinity site with a KD of 0.14 nM and a Bmax of 370 fmol/mg of protein and a low affinity high capacity site. When the nonspecific binding is defined by 1 microM physalaemin, the high affinity is the only detectable site. However, in low ionic strength media, physalaemin has about one-fiftieth the potency of SP in competing with [3H]SP. These results prove that increasing the ionic strength of the media reduces the affinity of SP and some of its fragments and allows the determination of physiologically relevant SP-P binding sites.
...
PMID:Specific binding of [3H]substance P to the rat submaxillary gland. The effects of ions and guanine nucleotides. 241 May 93
The binding of [3H]
substance P
(SP) to membranes of the rat small intestine demonstrates specific binding to receptors having more than one affinity for SP. The values of the binding parameters for the high-affinity site obtained from a non-linear regression analysis are as follows: KD = 0.25 nM, Bmax = 149.5 fmol/mg protein. Inhibition curves of 3H-SP binding using various unlabeled tachykinins show that the high-affinity receptor is of the P-subtype, having the highest affinity for SP and lower affinities for eledoisin and kassinin.
Guanine
nucleotides and sodium independently reduce the binding of 3H-SP to the high-affinity receptor in a dose-related manner; GTP and GDP are more potent than GMP. The reduction of specific SP binding by GTP can be ascribed primarily to an increase in the off-rate. The effects of guanine nucleotides on 3H-SP binding to membranes of rat small intestine suggest that the high-affinity receptor is linked to an effector by a GTP-binding regulatory protein.
...
PMID:Guanine nucleotides regulate [3H]substance P binding in rat small intestine. 241 4
[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+.
...
PMID:Specific binding of [3H-Tyr8]physalaemin to rat submaxillary gland substance P receptor. 257 11
The binding of [3H]physalaemin [( 3H]PHY) to rat brain membranes is specific, saturable and reversible in the presence of monovalent cations and peptidase inhibitors. Monovalent cations increase the binding of [3H]PHY in an ionic strength (mu)-dependent manner with an optimal effect at mu higher than 0.3. Addition of 2.5 mM MnCl2 results in a 2-fold increase in the affinity (KD) and a 40% increase in the maximal receptor density (Bmax). Scatchard analysis under these conditions indicates the existence of a single population of noninteracting sites with KD of 3.6 nM and a Bmax of 76 fmol/mg of protein.
Substance P
(SP) and physalaemin are equipotent in inhibiting the binding of [3H]PHY, whereas the potency of SP(2-11), SP(3-11), and SP(4-11) decreased in inverse proportion to their length. The relative affinity of the different tachykinins, SP, and SP fragments in competing with [3H]PHY correlates with their potency to stimulate several bioassay systems, indicating that [3H]PHY labels a physiologically relevant binding site that correspond to the SP-P
tachykinin
receptor.
Guanine
nucleotides completely abolish the increase in the binding of [3H]PHY produced by 2.5 mM MnCl2, but in its absence, the nucleotides reduce binding only by 15%.
Guanine
nucleotides reduce binding to the same level regardless of the presence or absence of the divalent cation. Regional distribution studies confirm that the density of SP receptors is maximal in the olfactory bulb, followed by the hypothalamus, striatum, hippocampus, cortex, and cerebellum.
...
PMID:Specific labeling of rat brain substance P receptor with [3H]physalaemin. 299 82
