Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The effects of bombesin and other unrelated oligopeptides on hormonal changes induced by stress were studied in conscious adult male rats. Restraint in the cold for 1 h increased plasma corticosterone and PRL levels and decreased GH values but had no effect on LH levels. Bombesin (5 microgram), given intracerebroventricularly (ivt) before stress, inhibited the PRL rise without affecting corticosterone, GH, or LH response. A complete blockade of PRL rise was observed with doses of bombesin ranging from 5 microgram to 100 ng ivt, regardless of the duration (15, 30, 45, or 60 min) or the nature (cold exposure or restraint at room temperature) of the stressor agents. Bombesin was 10(3) more potent as a PRL inhibitor when given ivt than when given iv, and its ivt effect was not reversed by naloxone (1 or 10 mg/kg). Among other unrelated peptides tested (beta-endorphin, neurotensin, substance P, and TRH; 5 microgram ivt), only neurotensin decreased plasma PRL levels in rats subjected to restraint in the cold for 1 h. These results show that in conscious male rats, centrally administered bombesin has a very potent and long acting inhibitory effect on PRL release induced by acute stress. Since a bombesin-like peptide has been found in rat brain, its physiological role in PRL regulation remains to be elucidated.
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PMID:Effects of neuropeptides on adenohypophyseal hormone response to acute stress in male rats. 10 88

The synthesis and biological evaluation on thermoregulation of 39 peptides related to bombesin (structural analogues or other naturally occurring peptides) are described. The bioassay system reported measures the ability of peptides injected intracisternally to lower body temperature of cold (4 degrees C) exposed rats. The most potent analogues of bombesin were those in which positions one to five (not included) were altered, indicating that the decapeptide C terminal was sufficient for full potency. Gln at the seventh position and Gly at the 11th position could be replaced by D-Gln and D-Ala (but not D-Pro or D-Phe), respectively, without any change in potency. Methionine at the 14 position could be replaced with its D isomer with retention of 10% biological activity. Any other alteration of the C terminus (deletions or free acid with the exception of the N-methylamide) drastically reduced the biological potency of those peptides. Among other naturally occurring peptides, alytesin was found to have 100% of bombesin potency whereas litorin, neurotensin, xenopsin, substance P, physalaemin, and eledoisin were found to be in the order of 10(4) times less potent. The shortest peptide found to have full biological activity is the octapeptide des-Glp-Gln-Arg-Leu-Gly-Asn[D-Glp7, D-Ala11]-bombesin.
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PMID:Bombesin, bombesin analogues, and related peptides: effects on thermoregulation. 65 96

Several vasoactive peptides administered intracisternally have been assessed for the effect of lowering the core temperature of rats exposed to cold. Peptides structurally related to neurotensin lower core temperature while those related to substance P do not. The tetradecapeptide bombesin, orginally isolated from the extracts of the skin of the frog Bombina bombina, is 10(4) times more potent than neurotensin in lowering core temperature, with a minimal effective dose less than or equal to 1 nanogram per 200 grams of body weight. Thus bombesin is one of the most potent peptides reported to affect the central nervous system.
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PMID:Bombesin:potent effects on thermoregulation in the rat. 86 Jan 30

The effect of terfenadine on the plasma concentrations of substance P and vasoactive intestinal polypeptide (VIP) was studied in 7 healthy subjects and 8 subjects with the common cold. Before terfenadine administration, the mean plasma substance P concentration of the subjects with the common cold was significantly higher than that of the healthy subjects. The increased mean plasma substance P concentration of the subjects with the common cold was decreased after terfenadine administration. In the healthy subjects, the mean plasma substance P concentration was unchanged by terfenadine administration. The mean plasma VIP concentration of the subjects with common cold was slightly higher than that of the healthy subjects before and after terfenadine administration, with no significant difference.
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PMID:Effect of terfenadine on the plasma concentrations of substance P and vasoactive intestinal polypeptide in volunteers. 128 Jun 80

Although effects of physical environmental stress, including noise and whole-body vibration, on human psychological activities and emotion are not negligible for environmental and occupational hygiene, attempts to elucidate their physiological and biomedical mechanisms have been not made until recently. Neurobiological researches on the effects of the physical environment, e.g., noise and whole-body vibration on organisms were reviewed. It has been well accepted that such effects can be classified into specific and nonspecific reactions to the stressor. Activations of the mesofrontal and the meso-accumbens dopaminergic (DA) systems and changes of frontal substance P (SP) have been reported to play a part in emotional changes and to be induced by acute physical environmental stressors as a nonspecific reaction. On the basis of data demonstrating that these three systems do not show the same changes with the chronic exposure, it is assumed that emotional changes may account for the differences among the systems. Specific responses of amygdaline DA and SP to noise suggest that the psychopharmacological mechanisms by which actions of DA and SP in the cortical association areas for the sensory systems of hearing, as well as in the amygdala and the mesencephalon together, cause the specific sensation of noise, and furthermore lead to psychological and physical nonspecific reactions. In these mechanisms, descending amygdalofugal neural systems of SP, neurotensin (NT) and somatostatin are activated as a common pathway, and subsequently relayed to the hypothalamus-pituitary system responsible for several endocrinological hormones. The involvements of the hippocampal VIP in whole-body vibration and of the DA and NT in cold exposure have been pointed out. Further researches to elucidate the roles of central neurotransmitters in physical environmental stress will be important in the study of human high-level mental activity.
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PMID:[Neurobiology of physical environmental stress]. 128 11

In the presence of potassium (K+), A23187 and substance P elicited endothelium-dependent relaxations of porcine coronary arteries. Isoproterenol or hypoxia elicited endothelium-independent relaxations. Rubbing the artery potentiated the contractile response to a low K+ concentration (15.4 mM). After intact arteries had been stored at 5 degrees C for 3 days, K(+)-induced maximal tension was not affected, but contractile responses to 15 mM K+ were potentiated with a decrease in ED50, suggesting that cold storage produces a supersensitivity to K+. Endothelium-dependent relaxations were abolished after 3 days of cold storage, while endothelium-independent relaxations were not inhibited. Cold storage of arteries with l-arginine (1 mM) for 3 days did not alter the relaxation responses to substance P and A23187, indicating that l-arginine does not prevent the loss of endothelium-dependent relaxation. Cold storage for 5 days inhibited the maximal tension to K+ and abolished the supersensitivity. Scanning electron micrographs showed that endothelial cells can be damaged by prolonged cold storage. The changes in tension response of the artery were correlated with the time course of endothelial cell loss resulting from cold storage.
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PMID:Prolonged cold storage abolishes endothelium-dependent relaxing responses to A23187 and substance P in porcine coronary arteries. 137 58

Rats exposed to a cold environment (4 degrees C) for 30 min every 1 h during the day and at night show a gradual decrease in the nociceptive threshold for pressure stimulation. Such hyperalgesia, referred to as repeated cold stress (RCS)-induced hyperalgesia, is stable for at least 4 h and maintained for 3 days only by exposing to cold overnight; thus, no adaptation to RCS is apparent. Hyperalgesia gradually returns over 4 days after cold exposure ceases. To determine whether three neuropeptides, substance P (SP), calcitonin gene-related peptide (CGRP) and galanin (GAL), which are present in the superficial dorsal horn including primary afferent terminals, would be responsible for RCS-induced hyperalgesia, we examined the effects of intrathecal injections of their antibodies (used as inhibitors of neuropeptide-mediated synaptic transmission) on the nociceptive threshold of RCS rats, and compared this with the antibody effect on carrageenan-induced hyperalgesia. An intrathecal injection of anti-SP antibody significantly inhibited the hyperalgesia of RCS rats as well as carrageenan-induced hyperalgesia, and slightly increased the nociceptive threshold of non-RCS rats. Anti-CGRP antibody produced an improvement in the hyperalgesia of RCS rats as well as carrageenan-induced hyperalgesia without having an effect on the nociceptive threshold of non-RCS rats. Although anti-GAL antibody significantly inhibited carrageenan-induced hyperalgesia, it did not affect the nociceptive threshold of RCS and non-RCS rats. The present results suggest that enhancement of synaptic transmission mediated by SP and CGRP, but not GAL, in the spinal dorsal horn is, at least in part, involved in RCS-induced hyperalgesia.
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PMID:Effects of intrathecal antibodies to substance P, calcitonin gene-related peptide and galanin on repeated cold stress-induced hyperalgesia: comparison with carrageenan-induced hyperalgesia. 137 88

The pharmacologic actions related to antimotion sickness effects of ginger (Zingiber officinale Roscoe.) were studied. There was no significant effect on parameters of rotatory movement-induced electronystagmogram of rabbit after intravenous (i.v.) infection of ginger juice. The low amplitude fast wave pattern of electrocorticogram of rabbit changed to high amplitude slow wave pattern after i.v. injection of ginger juice. Rabbit gastric contraction in situ was shortly suppressed after ginger juice i.v. administration. In the isolated rat fundus strip preparations, however, ginger juice reduced the spontaneous contractile frequency, and enhanced the spontaneous contractile amplitude, which was followed by inhibition. Ginger juice produced longitudinal contraction of the guinea-pig isolated ileum, which was followed by rapid tachyphylaxis. This contraction effect was not affected by hexamethonium and 5-HT, but could be inhibited by cold storage, hyoscine, morphine, diphenhydramine, promethazine and substance P desensitization. Naloxone could eliminate this inhibition produced by morphine. By using dose-response relationship plot, non-competitive antagonisms were observed between ginger juice and Ach and between ginger juice and histamine in isolated guinea-pig ileum. It is suggested that the pungent constituents of ginger release substance P from sensory fibres. The released substance P in turn either stimulates cholinergic and histaminic neurons to release Ach and histamine, respectively, or produces direct muscle contraction by activating M and H1 receptors correspondingly. It is proposed that after being excited by substance P, M and H1 receptors are inactive temporarily and unable to be excited by agonists, therefore, ginger juice exhibits anticholinergic and antihistaminic action. Ginger juice produces antimotion sickness action possibly by central and peripheral anticholinergic and antihistaminic effects.
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PMID:[Pharmacologic studies of antimotion sickness actions of ginger]. 149 36

Simple cold preservation was evaluated in the rat model of small intestinal transplantation. Lewis rats received a syngeneic heterotopic graft of the jejunum either immediately (SI) or after preservation for 24 hr in Euro-Collins (SPE24), for 48 hr in EC (SPE48), for 24 hr in University Wisconsin solution (SPW24), or for 48 hr in UW (SPW48). The survival rates of SI, SPE24, SPE48, SPW24, and SPW48 were 100%, 78%, 0%, 100%, and 33%, respectively. Physiologic and pharmacologic properties of the grafts and native intestine were evaluated in vitro between 8 and 12 days after transplantation. Smooth muscle in all specimens contracted in response to cholinergic agonists, phenylephrine, and substance P, and was relaxed by isoproterenol. Excitatory innervation was present in 100%, 100%, 100%, and 67% of SI, SPE24, SPW24, and SPW48, respectively, while inhibitory innervation in each group was 50%, 29%, 60%, and 0%. Thus, smooth muscle function was preserved in all groups, but neural activity was impaired by some of the storage conditions. Preservation was best in SPW24, which had physiologic responses similar to those of SI. The rat jejunum can, therefore, be preserved in good condition for up to 24 hr before transplantation using simple cold storage in UW solution.
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PMID:Evaluation of UW solution for preservation of small intestinal transplants in the rat. 160 73

The tracheobronchial vasculature consists of a subepithelial capillary network and a deeper system of blood sinuses or capacitance vessels. There seem to be no arteriovenous anastomoses. Sympathetic nerves constrict the vasculature by the transmitters noradrenaline and neuropeptide-Y, parasympathetic nerves dilate it by acetylcholine and vasoactive intestinal polypeptide, and sensory nerves release neuropeptides including substance P that are dilator. Most inflammatory mediators are also vasodilator. In asthma there is mucosal vasodilation due to the direct action of mediators on vascular smooth muscle, neuropeptides released by axon reflexes in sensory nerve receptors, and possibly reflex vasodilation due to stimulation of sensory nerves. The vasodilation increases the thickness of the mucosa, both by vascular engorgement and by increased interstitial liquid volume. This mucosal thickening will narrow the airways and increase the rigidity of their walls. The vascular bed is also dilated by cold and hyperosmolality, and this change may be a component of the bronchoconstriction due to hyperventilation, inhalation of cold air and exercise. Changes in mucosal blood flow influence the uptake of chemical agents from the lumen, and the success of aerosol therapy in asthma may to some extent depend upon the influence of mucosal blood flow.
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PMID:Asthma. Tracheobronchial vasculature. 161 86


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