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)

1. Substance P (synthetic or extracted for intestine or central nervous system) is devoid of an algesic effect on paravascular pain receptors. 2. The algesic effect of a AP-containing acetone HCl-extract from spinal cord is explained by its high content of potassium ions. 3. SP-containing preparations which include an ammonium sulphate precipitation in the extraction procedure are algesic due to content of this salt. 4. SP-containing extract from intestine were found to be contaminated with a bradykinin-like peptide of high algesic potency. 5. These findings are discussed with regard to the restricted value of earlier results about central actions of SP-containing tissue extracts and with regard to the role of SP as a possible neurotransmitter.
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PMID:Lack of algesic effect of substance P on paravascular pain receptors. 56 91

Nine anesthetized dogs were provided with acute common duct fistulas after exclusion of the gallbladder. Synthetic Substance P was administered as caval infusions in a dosage of 0.5-20 ng x kg-1 x min-1, duration 10 min. The output of hepatic bile, sodium and amylase decreased during infusion by 40-52 per cent at the highest doses. After termination of infusion all 3 parameters increased by 19-60 per cent above the basal level. The biliary concentration of sodium was constant, while that of amylase increased during infusion. The responses were dose-related. The anticholeresis induced by substance P might be due to inhibition of the canalicular bile fraction, which presumably is mediated by active sodium transport and independent of bile salt excretion.
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PMID:Anticholeretic effect of substance P in anesthetized dogs. 64 72

The studies have indicated that tachykinin peptides are selectively involved in the central mechanisms of biological motivations. The injections of tachykinins suppress food motivation, salt appetite, to a lesser extent modifying defensive behaviour. Neuropeptides, including tachykinins, affect the prompt induction of early genes, which in turn enables a neuron to transform a short-term synaptic stimulation to long-term changes of synaptic sensitivity.
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PMID:[Tachykinins in the central mechanisms of biological motivation]. 128 12

Repeated sodium depletions produce a persistent, enhanced need-free salt intake in the rat, particularly in the female. The neurochemical mechanisms underlying the phenomenon are still unknown. The present studies evaluated the effect on the enhanced need-free salt intake of the female rat (1) of pharmacological interference with the natriorexigenic hormones angiotensin II and aldosterone and (2) of the central injection of the tachykinin peptides, which are endowed with antinatriorexic activity. The need-free salt intake of the female rat is not modified by treatment with the angiotensin-converting enzyme inhibitor captopril or by the aldosterone receptor antagonist RU-28318. On the other hand, the behavior is highly sensitive to the inhibitory effect of central tachykinins, suggesting the possibility that need-free salt intake might be linked to modification (down-regulation) of the inhibitory tachykininergic system.
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PMID:Central tachykinin injection potently suppresses the need-free salt intake of the female rat. 132 51

An in vitro model was used to evaluate the conjunctival penetration of three peptides, [D-ala2]metenkephalinamide (YAGFM, MW 647), substance P (MW 1348), and insulin (MW 5778), in comparison with two nonpeptides, atenolol (MW 266) and timolol (MW 433). All three peptides were hydrolyzed to varying extents during penetration across the conjunctiva. The permeability coefficient for intact YAGFM and insulin was 4.5 +/- 0.3 and 4.6 +/- 0.7 microns sec-1, respectively. These values were about two to five times lower than those for atenolol and timolol. No permeability coefficient could be calculated for substance P, since its transconjunctival flux never reached steady state. The conjunctival penetration of YAGFM and insulin was improved by about two and three times, respectively, with the addition of 1% Na glycocholate. Increasing the Na glycocholate concentration was more effective than changing the type of bile salt in improving the conjunctival penetration of insulin. The maximum factor of improvement was 12, as the Na glycocholate concentration was raised to 4%. The way in which Na deoxycholate, glycocholate, and taurocholate affected the conjunctival penetration of atenolol, timolol, and insulin suggests that these three bile salts improved mainly the transcellular penetration of the compounds studied.
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PMID:Conjunctival penetration of insulin and peptide drugs in the albino rabbit. 138 27

Steroids (aldosterone and testosterone) and peptides of cerebral origin (angiotensin II and the tachykinins) control the salt intake of the rat. They arouse or suppress the behaviour and produce life-long enhancements of NaCl intake. Need-induced salt intake (salt appetite or salt hunger), which is the consequence of sodium deficiency, is aroused by a synergy within the brain of cerebral angiotensin II and aldosterone. And prior episodes of sodium depletion produce enhancements of subsequent salt appetites, but only if the prior depletions were accompanied by angiotensin II and aldosterone action. Need-free salt intake, which occurs daily when the rat is in positive sodium balance, is inherently high in the rat and is organized in the perinatal period by aromatized testosterone which suppresses the intake of the male. It is also enhanced by prior activations of angiotensin II and aldosterone. Both need-induced and need-free salt intake are suppressed by intracranial tachykinins. Non-mammalian tachykinins (eledoisin, physalaemin, kassinin) are both antidipsogenic and antinatriorexigenic, but amino-senktide, an analogue of the mammalian tachykinin substance P with selective affinity for the NK 3 receptor, appears to be a selective antinatriorexigenic agent, and could provide a rational therapy for chronic overconsumption of salt.
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PMID:Control of salt intake by steroids and cerebral peptides. 163 90

2-n-Butyl-4-chloro-5-hydroxy-methyl-1-[(2'-(1H)-tetrazol-5-yl)biph enyl-4- yl)methyl]imidazol potassium salt (DuP 753) is a nonpeptide angiotensin II receptor antagonist that inhibits the contractile effects of angiotensin II competitively and shows pA2 values of 8.27 on the rabbit aorta and jugular vein, 8.66 on the rat portal vein and stomach, 8.19 on the rat urinary bladder, and 8.36 on human colon, ileum, and urinary bladder. This agent (more than 10(-5) M) exhibits no agonistic activity and does not affect the contractile effects of norepinephrine, acetylcholine, bradykinin, desArg9-bradykinin, substance P, neurokinin A, neurokinin B, or bombesin in the various tissues. The present results demonstrate that DuP 753 is a potent nonpeptide antagonist with high affinity, specificity, and selectivity for the angiotensin receptor.
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PMID:DuP 753 is a specific antagonist for the angiotensin receptor. 167 62

In the isolated guinea-pig ileum, exposure to the sensory stimulant drug capsaicin (1 microM) produced a contraction thought to involve substance P(SP) release from sensory nerves. Bile salt, sodium deoxycholate, potentiated the capsaicin-induced contraction in a concentration-dependent (0.03-10 microM) manner, without influencing contractions produced by exogenous SP or by electrical stimulation of efferent nerves. The bile salt-induced potentiation of the capsaicin response was not modified by hexamethonium or indomethacin. It was, however, abolished by concomitant incubation with Ruthenium Red, which was reported to block transmembrane calcium fluxes and then suppress the SP release from the capsaicin-sensitive sensory nerve terminals. We propose that bile salt, as a calcium ionophore, could activate or sensitize the action of capsaicin on the peripheral terminals of sensory nerves.
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PMID:Bile salt potentiates the action of capsaicin on sensory neurones of guinea-pig ileum. 169 Mar 69

The present study investigated the sensitivity of the medial region of the amygdala to the antinatriorexic action in the rat of the tachykinins eledoisin, substance P, neurokinin A and [Asp5,6, MePhe8] substance P(5-11) (also referred to as amino-senktide; NH2-SENK), which is a highly selective agonist for NK-3 receptors. The results obtained show that only the potent NK-3 agonists eledoisin and NH2-SENK inhibit salt appetite when injected into the medial region of the amygdala. Eledoisin and NH2-SENK inhibited salt appetite induced by sodium depletion, that has been proven to be governed by the synergism of angiotensin and aldosterone. They inhibited also salt appetite evoked by central renin injection, that is due to production of angiotensin II. On the other hand, eledoisin and NH2-SENK did not inhibit salt appetite evoked by subcutaneous deoxycorticosterone treatment. These findings suggest that the medial region of the amygdala is a site of action for the antinatriorexic effect of tachykinins and that their action at this site is mediated by NK-3 receptors. Moreover, our results show that in the medial amygdala, the antinatriorexic action of tachykinins appears to be directed toward the angiotensinergic component of the neural mechanism for salt appetite.
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PMID:Inhibition of salt appetite in the rat following injection of tachykinins into the medial amygdala. 169 38

Taste receptor organ activity and preference of sodium chloride solution in rats with deficit of substance P (SP) were studied. Total impulse activity of chorda tympani nerve of 7-8 week old rats was recorded under nembutal anesthesia. The taste responses to four solutions (sucrose, quinine sulfate, sodium chloride and citric acid) were decreased in rats injected with capsaicin in comparison with rats injected with vehicle. The rats injected with capsaicin preferred water to sodium chloride (two-bottle technique). On the contrary the rats injected with capsaicin preferred the salt solution. These data together with previous studies show the important role of peptide SP in taste receptor activity and "salt appetite".
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PMID:[Changes in the activity of the taste receptor apparatus and the preference for a sodium chloride solution in newborn rats receiving capsaicin]. 169 97

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