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)

Calcitonin gene-related peptide (CGRP) and the preprotachykinin A gene-derived peptides substance P (SP) and neurokinin A (NKA) are expressed in extrinsic primary afferent nerve fibres and intrinsic enteric neurons of the gut. The actions of tachykinins on the digestive effector systems are mediated by three different types of tachykinin receptor, termed NK1, NK2 and NK3 receptors, while the gastro-intestinal actions of CGRP are brought about by CGRP1 and possibly other CGRP receptors. These neuropeptide transmitters are expressed by enteric neurons, intestinal muscle, epithelium and vascular system in a cell-specific manner and enable SP, NKA and CGRP to influence motility, electrolyte and fluid secretion, vascular and immune functions in a peptide- and region-specific fashion. Inflammatory disorders of various aetiology involve changes in the peptidergic innervation of the gut, and inflammatory bowel disease is associated with NK1 receptor upregulation in intestinal blood vessels and lymphoid structures. Some of these alterations are reproduced in experimental models of gastro-intestinal disease, and there is mounting evidence that an imbalanced function of peptidergic neurons contributes to motor, secretory, vascular and immunological disturbances in intestinal anaphylaxis, infection and inflammation. In a therapeutic perspective it seems conceivable that tachykinin and CGRP receptors antagonists can be employed as spasmolytic, antidiarrhoeal, anti-inflammatory and antinociceptive drugs.
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PMID:Implications of tachykinins and calcitonin gene-related peptide in inflammatory bowel disease. 969 97

The ability of neuropeptides to modulate enteric smooth muscle proliferation was examined in primary explant cultures of rabbit gastric antrum and colon smooth muscle. Cell proliferation was determined by [3H]thymidine incorporation measurements and cell counting. Subcultured rabbit antrum and colon myocytes (passages 2-6) preserved a smooth muscle phenotype, as verified by immunohistochemistry for alpha-smooth muscle actin and electron microscopy. Both vasoactive intestinal polypeptide (VIP) and pituitary adenylate cyclase-activating peptide-(1-38) [PACAP-(1-38)] concentration dependently (10(-10) to 10(-6) M) inhibited the serum-induced [3H]thymidine incorporation [in colon, 48.2 +/- 5.8 and 55.6 +/- 9.3% of control with 10(-6) M VIP and 10(-7) M PACAP-(1-38)] and inhibited increase in cell numbers in cultures derived from the colon but not in those from the antrum. Effects of VIP and PACAP-(1-38) were mimicked by forskolin (10(-7) to 10(-6) M) but not by 8-bromo-cGMP, whereas theophylline enhanced the effects of VIP. Inhibition of nitric oxide synthase with NG-nitro-L-arginine methyl ester (10(-3.5) M) did not alter the effects of VIP. Substance P, motilin, calcitonin gene-related peptide, and somatostatin had no effect. A single class of 125I-labeled VIP binding sites was found in antrum and colon myocyte cultures with an equal affinity for VIP and PACAP-(1-38) [dissociation constant (Kd) in antrum = 3.4 +/- 0.8 nM for VIP and 2.0 +/- 1.0 nM for PACAP-(1-38); Kd in colon = 2.0 +/- 1.0 nM for VIP and 2.8 +/- 1.6 nM for PACAP-(1-38)]. Density of binding sites in the antrum was higher than in the colon. In disease states such as inflammatory bowel disease, inhibition of myocyte proliferation by VIP and PACAP may serve to control smooth muscle hyperplasia in the colon but not in the antrum.
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PMID:Region-specific antiproliferative effect of VIP and PACAP-(1-38) on rabbit enteric smooth muscle. 988 8

The etiology of inflammation, edema, and smooth muscle contraction characteristic of inflammatory bowel disease is not clearly understood. There is evidence that several neuropeptides, including substance P (SP), may play a role. In this study we evaluated the ability of a SP-antagonist (SR140333) to modify the course of experimental colitis induced in the rat by trinitrobenzene sulfonic acid (TNB). Colitis was induced in 24 rats using TNB applied by intrarectal enema. Twelve TNB-treated rats received SR140333, 0.1 mg/kg intraperitoneally, 30 min before the administration of TNB and every 48 hr until death. Twelve rats receiving only intrarectal 0.9% saline served as controls. Rats of each group were killed after 14 days. At day 14, the control group showed no signs of inflammation whereas the TNB-treated rats without SR140333 treatment exhibited a well-established colitis. The TNB-treated group had a higher level of inflammation, as seen histologically and by the significantly greater weight of colon strips, compared to the controls (0.30 +/- 0.09 g vs 0.13 +/- 0.03 g, P < 0.001) and to the SR140333-treated rats (0.30 +/- 0.09 g vs 0.14 +/- 0.05 g, P < 0.001). In addition, smooth muscle contractility was significantly reduced in the inflamed colons of TNB-treated rats when compared with the controls (carbachol: 42.7 +/- 20.3 vs 254.2 +/- 69.78 mg/mm2; SP: 18.5 +/- 10.02 vs 89.45 +/- 23.17 mg/mm2; KCl: 11.4 +/- 2.2 vs 98.32 +/- 33.57 mg/mm2, P < 0.01). However, SR140333-treated rats showed a recovery from inflammation and motor alterations caused by TNB (carbachol: 150.9 +/- 46.1 mg/mm2, P < 0.01; SP: 32.5 +/- 9.4 mg/mm2, P < 0.05; KCl: 125.7 +/- 36.1 mg/mm2, P < 0.01). In conclusion, treatment with SP antagonist SR140333 reduces the severity of colitis and has beneficial effects on the concomitant alterations of contractility. Thus, the blockade of substance P may represent a possibility in the treatment of intestinal inflammation.
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PMID:SR140333, a substance P receptor antagonist, influences morphological and motor changes in rat experimental colitis. 1006 35

Inflammatory bowel disease is associated with altered intestinal motility and epithelial damage. Hyperthermia induces heat shock protein expression, components of a basic cellular defence mechanism, and consequently prevents ischaemic damage. Here we investigate whether hyperthermia may prevent altered smooth muscle function as well as underlying inflammation in a model of inflammatory bowel disease. Ileal heat shock protein expression was induced in rats by hyperthermic shock (41.5 degrees C; 5 min). Two hours after heating or sham treatment, ileitis was evoked by TNBS. Ileal samples were taken 4 h later to determine the contractile response of circular muscle strips, and to measure heat shock protein expression, LTB4 generation and damage/inflammation. Ileitis was associated with an increase in the contractile response of circular muscle to substance P but not neurokinin A or nerve stimulation. Hyperthermia induced heat shock protein expression and also prevented this functional change as well as TNBS-induced LTB4 production, subsequent infiltration of neutrophils and epithelial damage. Thus, intestinal inflammation is associated with alterations in tachykinergic control of smooth muscle as well as inflammatory changes. Hyperthermia prevents these changes and induces heat shock protein expression. Pharmacological induction of these proteins may offer a novel clinical strategy in treating both of these aspects of disease.
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PMID:Hyperthermia prevents functional, histological and biochemical abnormalities induced during ileitis. 1008 37

The present study was designed to investigate inflammation-induced changes in smooth muscle responses to acetylcholine and the tachykinins that may contribute to the abnormal motility associated with inflammatory bowel disease. Colitis was induced in male Sprague-Dawley rats by intrarectal administration of trinitrobenzenesulphonic acid in ethanol. After either 4 h (acute) or 7 days (chronic) the distal colon was taken for in vitro measurement of smooth muscle tension and histological assessment. Acute colitis featured injury and neutrophilic infiltration confined to the mucosa while chronic inflammation showed marked injury, lymphocytic infiltration and muscle thickening. Acute inflammation increased responses to substance P and acetylcholine but decreased responses to neurokinin A. The enhanced response to substance P was dependent on nerves, while the decreased response to neurokinin A reflected a reduction in activity at the level of the smooth muscle. In the saline group, there was evidence of cholinergic interaction with substance P, but not neurokinin A. Substance P modulation of cholinergic nerves was absent in acute inflammation. Responses to all neurotransmitters were decreased in the chronic stage. These data demonstrate progressive changes in the smooth muscle function during acute and chronic colitis that may contribute to the abnormal motility associated with inflammatory bowel disease.
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PMID:Progressive alterations in circular smooth muscle contractility in TNBS-induced colitis in rats. 1052 Jan 66

The field of neuropeptides has been expanding very rapidly in recent years. Apart from understanding their physiology and elucidating their functional role as putative neurotransmitters, research has focused on producing drugs that may treat a variety of illnesses in a novel way. Substance P antagonists occupy a central role in this area of intensive scientific activity. Substance P (SP), an undecapeptide, is abundant both in the periphery and in the CNS, where it is usually co-localised with one of the classical neurotransmitters, most commonly serotonin (5-HT). A role for SP is proposed in the regulation of pain, asthma, psoriasis, inflammatory bowel disease and, in the CNS, emesis, migraine, schizophrenia, depression and anxiety. A recently published positive study of MK 869, in depression, a novel SP antagonist has generated excitement amongst psychopharmacologists. It is the first time that a drug, not directly related to monoamine transmitters, has showed efficacy in depression. Although MK 869 has been suspended from further development, a host of other compounds, with similar action and better pharmacological profile, are currently under development. In this review, the pharmacology of central SP and its receptors are discussed, together with the exploration of the prospects and implications for future treatments of depression.
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PMID:Substance P antagonists: novel agents in the treatment of depression. 1106 Jul 83

Increasing evidence suggests that tachykinins are involved in the control of pathophysiological states, such as inflammation. The precise localization of tachykinin receptors is of paramount importance in the search for their possible physiological and pathological role; in this study, therefore, we attempted to define cellular sites of substance P (NK-1R) and neurokinin A (NK-2R) receptor expression in the healthy and the inflamed human intestine by in situ hybridization and immunohistochemistry. In the normal ileum and colon, NK-1R and NK-2R were localized to smooth muscle cells of the muscularis mucosae and propria and a few inflammatory cells of the lamina propria; NK-1R expression was also found in the muscular wall of submucosal blood vessels, enteric neurons and, to a lesser degree, in surface epithelial cells. Patients with Crohn's disease and ulcerative colitis showed a dramatic increase in NK-1R density relative to controls, in both the inflamed and the uninvolved mucosa. Up-regulation of NK-1R was particularly evident on epithelial cells lining the mucosal surface and crypts, as well as on endothelial cells of capillaries and venules. Also, a marked increase in NK-2R expression was found in both groups of patients on inflammatory cells of the lamina propria, especially eosinophils. Our findings demonstrate that in the normal human intestine NK-1R and NK-2R are expressed in multiple cell types, which are endowed with different physiological functions; in addition, they demonstrate that both NK-1R and NK-2R are up-regulated in patients with Crohn's disease and ulcerative colitis. Taken together, these observations may have important physiological and pathophysiological implications, and provide the rationale for the use of NK-1R and NK-2R antagonists in the treatment of inflammatory bowel disease.
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PMID:Substance P (neurokinin-1) and neurokinin A (neurokinin-2) receptor gene and protein expression in the healthy and inflamed human intestine. 1107 11

The stress response in a healthy organism is generally viewed as a warning and thus a protective reaction to a threat. However, the response may be deleterious if it is linked to an inflammatory stimulus or if it proceeds an inflammatory event. Prior stress enhances the response to an inflammatory stimulus by a mechanism that is independent of the release of hypothalamic corticotropin-releasing factor (CRF) or arginine vasopressin. Putative mechanisms include an increase in intestinal permeability as well as the release of the proinflammatory neuropeptide substance P. Stress may also reactivate previous inflammation when applied in conjunction with a small luminal stimulus. This reactivation involves increased permeability and requires the presence of T lymphocytes. Inflammatory mediators activate hypothalamic pathways, and a negative feedback loop, mediated by CRF release, has been proposed because animals with impaired hypothalamic CRF responses are more susceptible to inflammatory stimuli. Together, these experimental observations provide insights into the expression of inflammatory disorders in humans, including inflammatory bowel disease and postinfective irritable bowel syndrome.
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PMID:Stress and the Gastrointestinal Tract IV. Modulation of intestinal inflammation by stress: basic mechanisms and clinical relevance. 1117 12

This article provides a brief overview of the history of substance P from its discovery in the 1930s to the present day. The development of substance P receptor agonists and antagonists, and more recently the employment of transgenic mice, provide a framework to explore the functional role of substance P. Chronic inflammation and pain are associated with a number of diseases, and it has been proposed that substance P, released from primary afferent nerve endings play a role in these conditions. Recent developments with substance P antagonists have demonstrated the importance of substance P in several models of disease that span from asthma to chronic bronchitis; from cystitis, inflammatory bowel disease to migraine; emesis, depression, pain and seizures. Advancements in the knowledge of the role of substance P, its agonists and antagonists could provide clinical solutions for a variety of chronic inflammatory conditions.
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PMID:Substance p. 1137 38

Inflammatory bowel disease (IBD) and idiopathic chronic constipation (ICC) are intestinal disorders which disrupt normal colonic motility. Enteric tachykinins are well-recognised to play a role in the motor control of the gut, and increased colonic levels of substance P are seen in IBD, whereas decreased levels have been reported in ICC. In this investigation, we have characterised the tachykinin receptor population of normal human colonic circular smooth muscle and examined any changes that occur in IBD and ICC. The selective tachykinin NK2 receptor agonist, [beta-Ala8]neurokinin A(4-10), caused concentration-dependent contractions in healthy tissues; neither NK1 receptor-selective nor NK3 receptor-selective agonists were contractile. In diseased preparations also, only [beta-Ala8]neurokinin A(4-10) caused contractions with EC50 values similar to health. The maximum contractile responses (Emax), however, were significantly decreased in both forms of IBD but significantly increased in ICC. The muscarinic acetylcholine receptor agonist, carbachol, also caused contractions in diseased tissues, but EC50 and Emax values were not significantly different from health. The differential changes in contractility found in IBD and ICC are specific to NK2 receptors, and may reflect the altered levels of substance P or other tachykinins found in these intestinal disorders.
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PMID:Differential alterations in tachykinin NK2 receptors in isolated colonic circular smooth muscle in inflammatory bowel disease and idiopathic chronic constipation. 1138 76

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