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)

1. The effect on water intake of intracranial injections of Substance P was studied in the rat. 2. Substance P strongly inhibited drinking elicited by Angiotensin II, Carbachol water deprivation or sodium chloride load, in that order. 3. The peptide was particularly effective when water intake was induced by injections of Angiotensin II into the preoptic area. In these experiments, drinking was inhibited by doses of Substance P as low as 1 ng. 4. The results suggest that in the rat Substance P may play a role in the brain in the regulation of water intake, acting as a thirst inhibitor.
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PMID:Antidipsogenic effect of intracranial injections of substance P in rats. 67 47

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

The choice of which neurotransmitters will be produced by a developing neuron is influenced by the microenvironment of the neuron. In this study we show that neuronal contact with membrane-associated molecules promotes expression of peptidergic and cholinergic traits. Treatment of cultured neonatal rat sympathetic neurons with plasma membranes derived from adult rat spinal cord or sympathetic ganglia induced expression of the peptide transmitter substance P and increased levels of the cholinergic biosynthetic enzyme choline acetyltransferase. The transmitter-stimulating activity could be solubilized from spinal cord membranes by the detergent octyl glucoside but not by Triton X-100. The choline acetyltransferase- and substance P-stimulating activity also could be extracted from spinal cord membranes by 4 M sodium chloride, suggesting that the active material is membrane associated rather than an intrinsic structural membrane molecule. Trypsin or heat treatment of the extract destroyed the transmitter-stimulating activity, indicating that the factor contains a protein. Activity also was destroyed by hyaluronidase treatment, suggesting that the active material may contain a glycosaminoglycan. The choline acetyltransferase-stimulating activity in the 4 M NaCl extract was eluted in a single peak from a calibrated Sephadex G-75 column with a retention time slightly less than that of a 25-kDa standard. NaDodSO4/polyacrylamide gel electrophoresis of the active peak revealed a predominant band at 29 kDa. Thus, contact-mediated stimulation of substance P and choline acetyltransferase activity in sympathetic neurons results from neuronal exposure to a 29-kDa membrane-associated factor.
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PMID:Solubilization of a membrane factor that stimulates levels of substance P and choline acetyltransferase in sympathetic neurons. 244 32

The effects of antidromic nerve stimulation on intradental nerve activity were studied by recording sensory nerve impulses from canine teeth in anaesthetized cats. Nerve responses to application of a solution of hypertonic sodium chloride (0.76 M) in dentinal cavities at various intervals before and after antidromic stimulation of the inferior alveolar nerve were compared. Low-intensity stimulation (2 V, 60 Hz, 0.02 ms) did not affect the nerve responses to subsequent applications of the hypertonic solution. In contrast, high-intensity stimulation (10 V, 10 Hz, 5 ms) induced biphasic changes in the intradental nerve activity, consisting of a transient, increased nerve response to sodium chloride during the first few minutes after stimulation, followed by a period (40 min) of decreased responses. Systemic pretreatment with phentolamine did not influence these effects, whereas after administration of mepyramine and cimetidine the nerve stimulation induced increased responses during a period of 50 min. Local application of substance P in dentinal cavities reduced the nerve responses to subsequent applications of hypertonic sodium chloride, thus mimicking the depressant effect of antidromic stimulation. This inhibitory effect of substance P was abolished by pretreatment with antihistamines. The present results show that electrical stimulation of the inferior alveolar nerve at intensities high enough to excite sensory C fibres alters the responsiveness of intradental nerves. Such changes probably reflect a neurogenic inflammatory-like reaction in the pulp, in which substance P and histamine take part.
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PMID:Alterations in intradental nerve responsiveness induced by electrical stimulation of the inferior alveolar nerve in the cat. 619 54

Highly purified rat brain angiotensin-converting enzyme hydrolyzes substance P which contains a C-terminal amino acid with an amidated carboxyl group. The hydrolysis of substance P verified by amino-group fluorometry and by high-performance liquid chromatography is inhibited by captopril, but not by phosphoramidon. The presence of sodium chloride is essential for the hydrolysis. The analyses of cleavage products indicate that the enzyme hydrolyzes substance P between Phe7-Phe8 and Phe8-Gly9 by an endopeptidase action, followed by successive release of dipeptides by a dipeptidyl carboxypeptidase action.
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PMID:A new feature of angiotensin-converting enzyme in the brain: hydrolysis of substance P. 619 70

The present study investigated the effect of 24-h continuous ICV infusion of four different tachykinins on the enhanced need-free sodium intake induced by previous repeated sodium depletions in female rats. Female rats were employed because, in response to sodium depletions, they develop a higher need-free sodium intake than male rats. The following tachykinins were used: eledoisin, substance P (SP), [Sar9,Met(O2)11]SP and [Asp5,6,MePhe8]SP(5-11), also referred to as NH2-senktide, all at the same doses of 300 or 600 ng/h x 24 h. Food pellets, water, and 3% NaCl sodium solution were freely available. Eledoisin and NH2-senktide were more potent than SP in reducing the need-free sodium intake. On the other hand, [Sar9,Met(O2)11]SP had no effect. None of the tachykinins employed completely blocked the intake. Water intake was reduced, but this reduction was apparently a consequence of reduced intake of hypertonic sodium chloride solution, because at the same doses TKs did not inhibit water intake in a single-bottle test. Food intake remained unchanged at either dose used. These findings confirm previous studies in which pulse injection of the same drugs potently inhibited sodium intake. They also demonstrate that tachykinins endowed with high affinity for the NK3 receptor are the most potent in inhibiting sodium intake. Furthermore, these findings indicate that the tachykinins reduce the need-free sodium intake only during the infusion period, indicating that in these conditions they do not evoke either aversion for salt, or toxic consequences in the follow-up period.
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PMID:Effect of tachykinins on the need-free sodium intake of female rats: a continuous intracerebroventricular infusion study. 752 26

1. Inflammatory diseases of the pancreas or diseases which cause obstruction within the biliary or within the biliary or pancreatic duct system are associated with severe pain. Although neuropeptides such as substance P are present in the biliary tree, only few capsaicin-sensitive, substance P-positive nerve fibres have been found in the ducts. In order to obtain functional evidence whether capsaicin-sensitive afferent neurones transmit nociceptive information arising from the biliopancreatic duct, blood pressure reflexes following electrical stimulation of the duct or increases in intraductal pressure were determined in barbiturate-anaesthetized rats. 2. Electrical stimulation of neurones in the biliopancreatic duct was carried out at 30 V, 3 ms, 50 Hz for 20s. In untreated animals the electrical stimulation resulted in rises in blood pressure by up to 25 mmHg, but in about a quarter of all animals tested this response was absent. Following the administration of phentolamine (7 mumol kg-1, i.p.) the blood pressure responses were changed to pronounced and reproducible depressor reflexes of -5 to -30 mmHg. Retrograde injections into the biliopancreatic duct of 300 microliters of a 154 mM sodium chloride solution produced increases in intraductal pressure of approximately 10 mmHg. This elicited shortlasting falls in blood pressure of 3-15 mmHg. Phentolamine significantly augmented the fall in blood pressure to 8-30 mmHg. 3. The depressor reflexes observed in both models after the administration of phentolamine were abolished by morphine (1 mumol kg-1, i.v.). The inhibition by morphine was reversed by naloxone (3 mumol kg-1, i.v.). Naloxone given before morphine did not affect the depressor reflex but prevented the inhibitory action of subsequently injected morphine.4. Acute s.c. injection of capsaicin (30 mg kg-1) abolished the depressor reflexes in response to both types of nociceptive stimulation in phentolamine-treated rats. The initial pressor effects of electrical stimulation were only partly inhibited by capsaicin whereas the basal depressor reflexes in response to elevation of intraductal pressure were abolished. In rats which had received capsaicin on the day before the experiment or had been treated with capsaicin as neonates, only minor rises in blood pressure were induced by electrical stimulation at the beginning of the experiment and no changes in blood pressure occurred after the administration of phentolamine. After adult or neonatal pretreatment with capsaicin the depressor reflexes in response to increased intraductal pressure were only small and were unchanged by phentolamine.5. The depressor reflexes following either electrical stimulation or increases in intraductal pressure were abolished by the unselective Beta-blocker, (-)-propranolol (3 micromol kg-1, i.p.), and greatly reduced by the Beta 1-blocker, metoprolol (6 micromol kg- 1, i.p.). The Beta2-preferring adrenoceptor antagonist, butoxamine(3 micromol kg-1, i.p.), had no effect on the depressor responses. The reflex falls in blood pressure were also abolished by hexamethonium (10 micromol kg-1, i.p.) but not by atropine (3 micromol kg-1, i.p.).6. Both models of stimulation of nociceptive afferents caused identical patterns of blood pressure responses following adrenalectomy or chemical sympathectomy. In adrenalectomized rats, the initial responses consisted of depressor reflexes which were not augmented but significantly reduced by phentolamine and further inhibited by metoprolol. In rats that had been pretreated with 6-hydroxydopamine(total dose 0.6 mmol kg-1) to accomplish chemical sympathectomy, nociceptive stimulation caused rises in blood pressure. Phentolamine treatment abolished these pressor effects but revealed only minor, if any, depressor responses that were unaffected by metoprolol.7. In summary, the hypotensive effects in both models constitute nociceptive reflexes since they are abolished by morphine and restored by naloxone. The afferent part of the reflex is mediated by nerve fibres sensitive to capsaicin. Both experimental procedures seem to elicit two, presumably separate, reflex mechanisms. Firstly, catecholamines released from the adrenal medulla elevate blood pressure or limit hypotensive responses via activation of vascular alpha receptors. Secondly, the reflex inhibition of the sympathetic nerve activity in the heart and the vasculature causes the nociceptive depressor reflexes.
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PMID:Blood pressure reflexes following activation of capsaicin-sensitive afferent neurones in the biliopancreatic duct of rats. 791 20

Were studied the peptidergic mechanisms of regulation of the specialized forms of alimentary behaviour, i.e. the "salt" and "carbohydrate appetites", and the control of taste afferentation in the process of sodium chloride and saccharose consumption. Saccharose consumption controlled with participation of cholecystokinin was found to be mediated by an increase of taste afferentation under the influence of this peptide. Specialized sodium chloride consumption is under the control of the peptides litorine and substance P and mediated by a selective intensification of taste afferentation under the influence of these peptides. Active immunization by litorin-albumin and substance P-albumin conjugates was carried out to gain a high level of endogenous antibodies to these peptides. Injections of capsaicin to newborn rats was done for a degeneration of the substance P-containing nerve fibers. The methods used confirmed the specific participation of these peptides in a systemic regulation of salt consumption and activity of the chemoreceptors of the tongue. Were analyzed the main principles of the peptidergic regulation of the specialized forms of alimentary behaviour and the role of chemosensory afferentation in a correction of the process of consumption of the substances.
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PMID:[The peptidergic mechanisms controlling specialized appetites and taste afferentation]. 831 64

We evaluated the ability of hyperosmolar stimuli to activate afferent nerves in the guinea pig trachea and main bronchi and investigated the neural pathways involved. By using electrophysiological techniques, studies in vitro examined the effect of hyperosmolar solutions of sodium chloride (hypertonic saline) on guinea pig airway afferent nerve endings arising from either vagal nodose or jugular ganglia. The data reveal a differential sensitivity of airway afferent neurons to activation with hypertonic saline. Afferent fibers (both A delta and C fibers) with cell bodies located in jugular ganglia were much more sensitive to stimulation with hypertonic saline, compared with afferent neurons with cell bodies located in nodose ganglia. Additional studies in vivo demonstrated that inhalation of aerosols of hypertonic saline induced plasma extravasation in guinea pig trachea that was mediated via tachykinin NK1 receptors. Identification of a differential sensitivity of guinea pig airway afferent nerves to hypertonic saline leads to the speculation that airway responses to hyperosmolar stimuli may result from activation of afferent neurons originating predominantly from the jugular ganglion.
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PMID:Selective stimulation of jugular ganglion afferent neurons in guinea pig airways by hypertonic saline. 947 59

Intraventricular injections of the tachykinin NK3 receptor (NK3-R) agonist, senktide, suppress the ingestion of hypertonic (0.5 M) NaCl by decreasing the initial lick rate and accelerating the decay in lick rate in sodium deficient rats. The present experiment examined whether the effects of intraventricular injections of senktide on lick rate were selective for NaCl solution, or if the ability of NK3-R agonists to inhibit intake generalizes other sodium-containing solutions. The effects of lateral ventricular injections of isotonic saline or senktide (200 ng) on intake and lick rate of 0.5 M solutions of sodium chloride (NaCl), sodium acetate (Na acetate), sodium bicarbonate (Na bicarbonate), and monosodium glutamate (MSG) were measured in sodium deficient rats. Compared to saline injection, senktide injection had no effect on the lick rate or intake of Na bicarbonate. In contrast, intraventricular injection of senktide suppressed the intake of NaCl, Na acetate, and MSG compared to saline injection. Senktide injection accelerated the decay in lick rate for NaCl, Na acetate and MSG, but only suppressed the initial lick rate for NaCl and Na acetate. The results show that activation of NK3-R in sodium deficient rats suppresses the intake of tastes that are classified as "salty" tasting and that the decrease in intake reflects effects on the initial lick rate, the decay in lick rate, or both.
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PMID:Intraventricular injections of tachykinin NK3 receptor agonists suppress the intake of "salty" tastes by sodium deficient rats. 1615 48

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