UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The specificity of the neurodepressant actions of D-alpha-aminoadipate, alpha,epsilon-diaminopimelic acid, HA-966 (HAP) and Mg2+ has been investigated. On the isolated spinal cord of the neonatal rat, ventral root depolarizations produced by kainate, substance P, carbachol and noradrenaline were relatively unaffected by the same concentrations (0.25--1 mM) of the agents as those which reduced synaptic activity and ventral root depolarizations produced by N-methyl-D-aspartate (especially), L-aspartate and L-glutamate. The same or higher concentrations of the agents did not affect excitatory transmission in the isolated rat superior cervical ganglion. It is proposed that the agents specifically block synaptic transmission mediated by an excitatory amino acid.
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PMID:Specific antagonism of excitant amino acids in the isolated spinal cord of the neonatal rat. 21 25

In an attempt to understand the role of Ca2+ on the bioactive conformation of peptide hormones, we have examined the interaction between Ca2+ and the neuropeptide substance P. Using CD spectroscopy to monitor conformational changes caused by Ca2+ binding, we found no significant binding of the cation by substance P in water. However, a substantial conformational change occurred in the hormone on Ca2+ addition in trifluoroethanol or an 80:20 (v/v) mixture of acetonitrile and trifluoroethanol. A biphasic binding of Ca2+ was observed in these solvents with saturation at 2 cations per hormone molecule. Mg2+ caused a relatively smaller conformational change in the hormone. A peptide corresponding to residues 1-7 at the N-terminal fragment of substance P showed a weak nonsaturating binding of Ca2+ in the nonpolar solvents whereas the 7-11 C-terminal fragment peptide displayed a binding indicative of an 1:1 Ca2+/peptide complex. Ca2+ binding by the hormone and the 7-11 fragment was also monitored by changes in fluorescence of the phenylalanyl residues. The results support the conclusion drawn from the CD data about a distinct Ca2+ binding site in the C-terminal part of substance P. The Kd values obtained from fluorescence data were 160 microM for Ca2+ and 1 mM for Mg2+ binding by substance P. The hormone and the two peptide fragments were also tested for their effect on the stability of dimyristoyl lecithin vesicles. Substance P and the N-terminal fragment caused no significant leakage of either fluorescent dyes or K+ trapped in the vesicles. Nor did they cause membrane fusion as monitored by the fluorescence quenching method.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of substance P and its N- and C-terminal fragments with Ca2+: implications for hormone action. 128 41

The pre-inspiratory (Pre-I) neurons which fire in the pre- and usually also during the post-inspiratory phase are located in the ventrolateral structures of the rostral medulla. They are suggested as primary rhythm generating neurons for respiration. These have been studied in isolated brainstem-spinal cord preparations from newborn 0-5-day-old rats. We have found that application of substance P (SP) enhanced the respiratory rhythm as measured by C4 ventral root and pre-I neuronal activities. Furthermore, the effect of SP was dependent on basal respiratory rate. An increase of the Pre-I and C4 burst rate by SP was clearer when the basal respiratory rhythm was somewhat lower. Moreover, long lasting depression of respiratory rate after the application of the alpha 2-agonist clonidine was reversed by SP. On the other hand, an inhibitory effect appeared in preparations with a higher basal respiratory rate, while the Pre-I burst rate tended to increase during SP perfusion. During chemical synaptic transmission blockade by perfusion with low Ca2+, high Mg2+ solution, a pre-I burst retained or completely blocked was found to be enhanced or reactivated by SP perfusion. The results suggest a direct postsynaptic action of SP, which could strongly stimulate burst generating properties of Pre-I neurons.
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PMID:Effect of substance P on respiratory rhythm and pre-inspiratory neurons in the ventrolateral structure of rostral medulla oblongata: an in vitro study. 128 71

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

Depolarization has been shown to alter the biosynthesis of a number of neurotransmitters and neuromodulators. In the rat superior cervical ganglion (SCG), for example, depolarization has been reported to increase catecholamine biosynthesis and to decrease the level of substance P. We have recently found that, although the level of vasoactive intestinal peptide (VIP)-like immunoreactivity (IR) is normally low in the SCG, it increases significantly 48 hr after adult ganglia are deafferented in situ or placed in organ culture. Both manipulations decrease electrical activity of postganglionic neurons. To determine whether the increases in ganglionic VIP-IR could be a consequence of decreased depolarization of sympathetic neurons, the effect of depolarization on the expression of VIP-IR was examined in organ cultures of neonatal and adult SCG. Depolarization with elevated K+ (30 mM) or veratridine (1.5 microM) amplified, rather than blocked, the increases in VIP-IR content seen after 24 hr. Further, it increased the number of detectable VIP-IR neuronal cell bodies and processes. The stimulatory effects of veratridine were prevented by TTX. Since similar changes in expression of VIP-IR were evident in dissociated cell cultures of the SCG, cell-cell interactions requiring intact ganglionic architecture are not necessary for altered peptide expression. Elevating the concentration of Mg2+ blocked the ability of K+ and veratridine to increase VIP-IR in dissociated cell culture, raising the possibility that the effects of depolarization on VIP-IR are mediated by increased Ca2+ entry. The depolarizing conditions that increased VIP-IR also increased substance P-IR. While higher concentrations of veratridine (50 microM) blocked the elevation of both VIP- and substance P-IR induced by explantation, they produced significant neuronal death. Since depolarization with either 30 mM KCl or 1.5 microM veratridine increases expression of VIP-IR in neonatal and adult ganglia, decreased depolarization is unlikely to cause the increases in VIP- and substance P-IR that occur in culture. Furthermore, our data raise the possibility that sympathetic nerve activity in vivo can increase expression of these peptides.
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PMID:Depolarization increases vasoactive intestinal peptide- and substance P-like immunoreactivities in cultured neonatal and adult sympathetic neurons. 138 75

Polylysine, polyornithine and, to a lesser extent, polyarginine were found to stimulate the GTPase activity of the purified recombinant alpha subunit of the human G(i)-3 transducing protein alpha i-3. Optimal stimulation of 4- to 5-fold was obtained with polylysine concentrations between 1 and 20 microM, higher concentrations being inhibitory. Polylysine at similar concentrations stimulated by 50% the GTPase of transducin (GT), the vision transducing protein, but had only a very slight effect on the GTPase of the p21 product of the H-ras protooncogene. The stimulation of the alpha i-3 GTPase caused by polylysine was due to a reduction of the apparent Km for GTP from 3.8 to 1.3 microM. The stimulation by polylysine was observed at free Mg2+ concentrations below 1 microM. These results indicate that polylysine acts in a fashion similar to mastoparan and substance P in mimicking the action of an agonist-bound receptor on G-proteins.
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PMID:Differential stimulation of the GTPase activity of G-proteins by polylysine. 151 Jul 3

The synthetic hexapeptide, His-D-Trp-Ala-Trp-D-Phe-Lys-NH2 (GHRP, Growth Hormone-Releasing Peptide), has no structural similarities with any of the GH-releasing peptides known and its action in releasing GH is by a complementary but yet not clearly defined action on the pituitary as well as hypothalamus. Therefore, in vitro studies have been performed to demonstrate and characterize GHRP binding sites on peripheral membranes of both porcine pituitary and hypothalamus. The membrane binding sites were specific, reversible, saturable and time, temperature, pH and concentration dependent under optimum binding assay conditions. The maximum specific binding was observed between pH 5.0 and 6.0. In the presence of Ca2+ and Mg2+ ions, with or without chelating agents there was a significant reduction in the specific binding. Scatchard analysis of these binding sites using increasing doses of unlabeled GHRP revealed a single low affinity site with a 2.1 x 10(-5) M and 1.7 x 10(-5) M and a maximum number of sites of 10 nmol/mg protein and 5 nmol/mg protein for pituitary and hypothalamus, respectively. It is also observed that (D-Lys3)-GHRP, substance P antagonists and growth hormone-releasing factor analog were potent inhibitors of GHRP binding in both tissues.
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PMID:Growth hormone-releasing peptide (GHRP) binding to porcine anterior pituitary and hypothalamic membranes. 155 31

The neuropeptide substance P and the polyamine compound 48/80, both known to activate mast cell secretory processes, increased the rate of GTP S binding to G-proteins purified from calf brain (Go/Gi mixture). The GTPase activity of G-proteins was also increased by substance P and compound 48/80 in a dose-dependent and Mg2+-dependent way. These effects were similar to those of the wasp venom peptide mastoparan, another histamine releaser of rat peritoneal and human skin mast cells. This suggests that the secretory property of compound 48/80 and substance P is not due to a receptor-mediated process but, like mastoparan, results from a direct activation of G-proteins.
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PMID:Direct activation of GTP-binding regulatory proteins (G-proteins) by substance P and compound 48/80. 168 15

In the present study characterization of phosphatidylinositol 4,5-bisphosphate-specific phospholipase C (PIP2-PLC) activity and receptor-mediated hydrolysis of PIP2 in rat anterior pituitary membranes were investigated. Incubation of the membrane fraction of anterior pituitary homogenate with [3H]inositol-labeled PIP2 in the presence of calcium increased the concentration of the water-soluble degradation product inositol trisphosphate (IP3) in a time-dependent manner. PIP2-PLC in the rat anterior pituitary had a pH optimum at 5.5 and a requirement for cations. Ca2+ and Mg2+ could activate the enzyme. Activity was maximal at a total magnesium concentration of 1 mM and at a free Ca2+ concentration of 100 microM. The addition of the detergent Triton X-100 (0.05% w/v) to the membrane fraction resulted in a 50% decrease of PIP2-PLC activity, whereas the presence of sodium deoxycholate (1 mg/ml) in the membrane fraction increased the PIP2-PLC activity by 100%. The tachykinins substance P, 8-Tyr-substance P, physalaemin, neurokinin A, eledoisin, kassinin and neurokinin B induced receptor-mediated breakdown of [3H]inositol-labeled PIP2 in the membrane fraction in a concentration-dependent manner, but with different potencies. The tachykinins displayed the following rank order of potencies: substance P greater than 8-Tyr-substance P greater than physalaemin greater than neurokinin A greater than eledoisin greater than kassinin greater than neurokinin B, which is consistent with the involvement of a NK-1 receptor. Combined treatment of anterior pituitary membranes by substance P and thyrotropin-releasing hormone (TRH) resulted in an additional increase in PIP2-PLC activity compared to stimulation with TRH alone.
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PMID:Substance P and related tachykinins induce receptor-mediated hydrolysis of polyphosphoinositides in the rat anterior pituitary. 169 Nov 15

1. Responses of primary sensory neurons to substance P applications by perfusion were studied with intracellular recording techniques in in vitro slice preparations of trigeminal root ganglia (guinea pigs). Application of substance P in micromolar doses produced reversible depolarizations of 2-47 mV in 48 out of 64 neurons. The depolarizing influence facilitated repetitive spike discharge evoked by current-pulse injection. Evidence of desensitization was observed during prolonged or repeated applications of the peptide. 2. The responses to substance P were associated with decreased input resistance, although increased input resistance was observed in neurons where the resting membrane potential was compensated with DC injection. In single-electrode voltage-clamp (SEVC) recordings, substance P evoked an inward shift in the holding current and reduced an outwardly rectifying component in the I-V relationships. The reversal potential for the substance P response could not be determined. These results suggested that the perikaryal response to substance P has a complex ionic mechanism involving activation and deactivation of membrane conductances. 3. Substance P-induced depolarizations were greatly attenuated during perfusion with solutions that were deficient in [Na+] or [Mg2+] and were not significantly affected during perfusion with low-[Ca2+]-, CO2(+)-containing solutions. 4. In the voltage-clamp investigations, an inward current contributed to the substance P responses during combined application with the K(+)-channel blockers, 4-aminopyridine (4-AP) and tetraethylammonium (TEA). This current was not abolished by the inclusion of CsCl in the perfusing solution or by internal Cs+ application from the recording electrode, suggesting that an anomalous inward rectifier was not involved in the responses to substance P.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ionic mechanism of substance P actions on neurons in trigeminal root ganglia. 169 60

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