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)

In the small intestine of urethane-anesthetized rats, i.v. neurokinins (NKs) (0.043-14 nmol/kg) produce three distinct motor effects, e.g.: 1) a transient relaxation followed by 2) a phasic contraction and 3) a tonic contraction. The aim of this study was to characterize the nature of the receptor determining the transient relaxation and mechanisms involved. The transient relaxation was more evident in the distal than in the proximal duodenum or in the jejunum. The rank order of potency of NKs in producing relaxation was NKA greater than substance P greater than NKB. The heptapeptide NKA(4-10) was as potent as the decapeptide NKA in determining relaxation but less potent than NKA in producing phasic or tonic contraction. NKA (0.43 nmol/kg i.v.)-induced relaxation and tonic contraction were unaffected by [D-Pro2, D-Trp7.g]substance P, a compound which, in this tissue, acts as a NK-1 receptor antagonist. NKA (0.43 nmol/kg i.v.)-induced relaxation of the distal duodenum was unaffected by atropine, hexamethonium or adrenalectomy, reduced by phentolamine plus propranolol and abolished by guanethidine or acute (15 min before) removal of the celiac ganglion complex. These findings are consistent with the hypothesis that activation of a NK-2 receptor located on postganglionic sympathetic neurons in the prevertebral ganglia produces the intestinal relaxation in response to i.v. NKs.
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PMID:Neurokinins induce a relaxation of the rat duodenum "in vivo" by activating postganglionic sympathetic elements in prevertebral ganglia: involvement of an NK-2 type of neurokinin receptor. 245 94

The origin of the peptidergic nerve fibers and terminals in the celiac superior mesenteric ganglion of the guinea-pig was studied. The distribution of immunoreactivity to enkephalin, substance P, calcitonin gene-related peptide, cholecystokinin, vasoactive intestinal polypeptide/peptide histidine isoleucine, bombesin and dynorphin was analysed in intact animals and in animals subjected to various denervation and ligation procedures. The present results show that each of the connected nerve trunks carries peptidergic pathways and contributes to the peptidergic networks in the celiac superior mesenteric ganglion. Thus, the thoracic splanchnic nerves contain enkephalin-, substance P- and calcitonin gene-related peptide-immunoreactivity of which substance P and calcitonin gene-related peptide coexist in the same nerve fibers. In addition, cholecystokinin-, vasoactive intestinal polypeptide/peptide histidine isoleucine- and dynorphin-immunoreactivity is present in some fibers. All of these immunoreactivities are present in sensory neurons except enkephalin which probably originates in the spinal cord. The mesenteric nerves carry enkephalin-, calcitonin gene-related peptide-, cholecystokinin-, vasoactive intestinal polypeptide/peptide histidine isoleucine-, bombesin- and dynorphin-immunoreactive fibers from the intestine and are the main source for cholecystokinin, vasoactive intestinal polypeptide/peptide histidine isoleucine, bombesin and dynorphin fibers. Double-staining experiments indicate that many of these peptides are synthesized in the same enteric neurons. Also the intermesenteric nerve contains peptide-immunoreactive fibers to the celiac superior mesenteric ganglion from different sources, probably including the distal colon as well as dorsal root ganglia and spinal cord at lower thoracic and lumbar levels. The results are discussed in relation to earlier morphological and physiological studies supporting the view of a role of the celiac superior mesenteric ganglion in local reflex mechanisms involved in regulation of gastrointestinal functions.
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PMID:Distribution and origin of peptide-containing nerve fibers in the celiac superior mesenteric ganglion of the guinea-pig. 246 82

Projections and peptide neurotransmitter/neuromodulator content of autonomic and visceral afferent neurons of the guinea pig were studied after application of the subunit B of cholera toxin (CTB) with or without horseradish peroxidase (HRP) as retrograde and anterograde tracers and subsequent immunohistochemical processing for double staining using antibodies raised to CTB, HRP and various neuropeptides. The results demonstrate that substance P (SP)- and calcitonin gene-related peptide (CGRP)-containing dorsal root ganglion cells project to the pylorus as well as to the celiac superior mesenteric and stellate ganglia as demonstrated with both retrograde and anterograde transport methodology. Binding studies revealed that a small number of the CTB-binding dorsal root ganglion cells contains immunoreactivity to SP and CGRP. The majority of the CTB-binding cells is SP- and CGRP-negative and terminate in the deeper parts of the dorsal horn. After injection of CTB conjugated to HRP (B-HRP) into the nodose ganglion, both motor and sensory elements were labeled in the medulla oblongata. Some of the CTB labeled vagal sensory nerve fibers in the nucleus tractus solitarii (NTS) were also found to contain immunoreactivity to SP or CGRP. The tracer was also transported through the peripheral branch of the nodose ganglion cells and labeled terminals in the esophagus.
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PMID:Simultaneous immunohistochemical demonstration of intra-axonally transported markers and neuropeptides in the peripheral nervous system of the guinea pig. 247 17

Bombesin (100-500 ng) injected intrathecally (T9-10) inhibited gastric acid secretion stimulated by pentagastrin and the GABAB agonist baclofen in urethane-anesthetized rats and basal gastric acid secretion in conscious, pylorus-ligated rats. Peptide action was dose-related, occurred within 30 min, and lasted for greater than 1 h. Bombesin-induced inhibition of pentagastrin-stimulated gastric acid secretion was not altered by cervical cord transection. Intravenous infusion of the monoclonal bombesin antibody 2A11 abolished intravenous bombesin (10 micrograms/kg.h)-induced 33% inhibition of gastric response to pentagastrin but did not alter intrathecal bombesin (200 ng)-induced 38% inhibition of gastric response to pentagastrin. The inhibitory effect of bombesin (200 ng) on pentagastrin-stimulated gastric secretion was reversed by bilateral adrenalectomy or removal of celiac and mesenteric ganglia. Intrathecal injections of rat calcitonin gene-related peptide, neuromedin B, neuromedin U, and the stable substance P analogue (pGlu5, MePhe8, MeGly9)-substance P(5-11) did not alter pentagastrin-stimulated gastric acid secretion. These results demonstrate that bombesin injected into the subarachnoid space of the spinal cord inhibits vagally stimulated and pentagastrin-stimulated gastric secretion in rats. Bombesin action is peptide specific, exerted at a spinal site, and expressed through the sympathetic nervous system.
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PMID:Intrathecal injection of bombesin inhibits gastric acid secretion in the rat. 271 71

Selected portions of the prevertebral and paravertebral sympathetic and vagal parasympathetic nervous systems have been examined in the genetically diabetic Chinese hamster, an experimental animal model of diabetic gastrointestinal disease. The prevertebral sympathetic superior mesenteric/celiac ganglia, which provide much of the sympathetic innervation of the alimentary tract, developed large numbers of markedly dilated axons, many of which had the ultrastructural features of neuroaxonal dystrophy. Dystrophic axons, many involving presynaptic axonal elements, were increased in frequency in the prevertebral superior mesenteric/celiac ganglia, but not in the paravertebral superior cervical sympathetic ganglia, of chronically diabetic hamsters in comparison with age-matched controls. Dystrophic axons contained substance P- and gastrin-releasing peptide (gastrin-releasing peptide/bombesin)-like staining but were not labeled by antisera directed against vasoactive intestinal peptide, dynorphin-B, somatostatin, leu- and met-enkephalin and neuropeptide tyrosine. Substance P and gastrin-releasing peptide/bombesin containing subpopulations of presynaptic elements in prevertebral sympathetic ganglia are thought to participate in local reflex control of bowel motility and lesions preferentially involving these elements may contribute to bowel dysfunction. Immunohistologic techniques failed to demonstrate dystrophic axons in the superior cervical ganglia. Although morphometric studies failed to show significant axon loss in the abdominal vagus of chronically diabetic Chinese hamsters, evidence of markedly diminished numbers of axons comprising each Schwann cell unit and regenerative collections of Schwann cell processes devoid of axons are consistent with the participation of parasympathetic elements in the pathogenesis of alimentary dysfunction in this model system. These results suggest that selective subpopulations of neuropeptide containing axons are vulnerable to the diabetic condition and that these abnormalities may lead to physiologic dysfunction.
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PMID:Ultrastructural and immunohistochemical characterization of autonomic neuropathy in genetically diabetic Chinese hamsters. 274 19

Epinephrine, substance P, and glutamate have all been hypothesized as primary chemical mediators in the descending pathway from the brain stem "vasomotor center" to SPNs. Interestingly, lesions of or antagonists to epinephrine, substance P, glutamate, and 5-HT neurons all abolish sympathetic activity and reduce blood pressure to a level similar to that in a spinal-transected animal. However, it is unlikely that all these substances are primary mediators of sympathetic information carried from the brain stem to the spinal cord. How then do we resolve these findings? A plausible explanation is that monoamines and neuropeptides act in the IML, as in other areas of the central nervous system, as neuromodulators, setting the level of excitability of SPNs rather than relaying sympathetic information over a functionally specific pathway from brain stem sympathetic neurons to the IML. For example, the time course of the norepinephrine-mediated slow EPSPs and IPSPs in SPNs is consistent with a gain-setting function. Likewise, the depolarization of SPNs by 5-HT is similar to the depolarization elicited in myenteric and celiac ganglion cells. In these ganglia, 5-HT appears to mediate a slow excitatory potential that enhances incoming fast synaptic potentials. A similar gain-enhancing effect of 5-HT has been demonstrated in facial motoneurons. By analogy, epinephrine is likely to act as a neuromodulator in the IML rather than to serve as the primary mediator of sympathetic information descending from the brain stem. Similarly, it is difficult to imagine that an agent with such a long duration of excitatory action as substance P could serve as the primary descending transmitter in a system where moment to moment changes in activity are essential. It is more likely that substance P aids in setting the excitability of SPNs. Pharmacological antagonism of any of the excitatory neuromodulators (i.e. gain setters) might act to decrease, at least temporarily, the excitability of SPNs to the point where primary sympathetic activity from the brain stem could not excite SPNs. This accounts for the wide variety of pharmacological agents that act to eliminate sympathetic activity and drastically reduce blood pressure. On the basis of the above arguments, the most logical candidate for a transmitter mediating primary excitatory sympathetic information from brain stem "vasomotor centers" would be an excitatory amino acid. Fast EPSPs in SPNs appear to be mediated by glutamate and excitatory amino acid antagonists markedly inhibit sympathetic activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of putative neurotransmitters on sympathetic preganglionic neurons. 289 28

Substance P-immunoreactive nerve fibers in the celiac ganglion of guinea pigs were revealed with the PAP procedures to contain abundant small clear vesicles mixed with a few large granular vesicles. The immunoreactive materials were localized around cytoplasmic components including vesicles and on the inside of the plasma membrane. The immunoreactive fibers directly apposed to unlabelled dendrites of postganglionic neurons and also to preganglionic axons. Morphological features of synapses could be identified at sites of apposition to unlabelled dendrites: clusters of vesicles in the immunoreactive fibers, intercellular spaces of about 20 nm, and an intermediate density on the postjunctional membrane of unlabelled dendrites. On the other hand, no distinct electron density together with accumulations of vesicles was seen underneath the apposed membrane of unlabelled axons. These findings indicate at the ultrastructural level that substance P-fibers form axo-dendritic synapses on the postganglionic neurons and also suggest the presence of the presynaptic interaction between substance P-fibers and some preganglionic axons in this ganglion.
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PMID:An electron microscopic study on substance P-like immunoreactive nerve fibers in the celiac ganglion of guinea pigs. 617 Mar 85

The origin of substance P (SP)-like immunoreactivity in the Auerbach's plexuses of the esophagus, stomach duodenum was examined in the cat. The intensity of the fluorescence and the area of distribution of SP-like immunoreactivity in the Auerbach's plexuses of the cardiac part of the esophagus and the corpus of the stomach were markedly reduced by bilateral ligation of the abdominal vagus nerve, while little change occurred in the antrum of the stomach and the duodenum. After splanchnic nerve ligation or celiac ganglionectomy, the SP-like immunoreactivity in the Auerbach's plexuses of the antrum of the stomach and the duodenum was markedly reduced, whereas that in the esophagus and the corpus of the stomach was only slightly attenuated. Intense SP-like immunoreactivity was observed in the portions of the abdominal vagus and splanchnic nerve cranial to the ligation. This the Auerbach's plexuses of the esophagus, stomach and duodenum were considered to contain SP transported through the vagus and splanchnic nerve. It was also indicated experimentally that the SP-like immunoreactive fibers in the auerbach's plexus arose from the nodose and spinal ganglia as well as from the dorsal vagus nucleus in the medulla oblongata.
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PMID:Immunohistochemical studies on enteric substance P of extrinsic origin in the cat. 617 27

The effects of s.c. capsaicin treatment on the contents of immunoreactive substance P (ISP) in several peripheral and central nervous system tissues were examined in normotensive Wistar-Kyoto (WKY) and spontaneously hypertensive (SHR) rats. Significant differences between vehicle-treated subjects of the WKY and SHR strains were observed in the ISP contents of both superior cervical and celiac sympathetic ganglia. Capsaicin pretreatment significantly reduced the ISP contents of both sympathetic ganglia in both strains. Capsaicin pretreatment significantly elevated the ISP contents of adrenal medullae only in rats of the SHR strain. The effects of s.c. capsaicin administration on the ISP contents of several selected isolated brain nuclei were also examined. No statistically significant strain or treatment differences in the SIP contents of the nucleus tractus solitarii nucleus locus ceruleus and periaqueductal central gray were observed. The ISP contents of the nucleus raphe magnus, periventricular preoptic area, and nucleus amygdaloideus medialis were significantly greater in vehicle-treated SHR rats than in vehicle-treated WKY animals. Capsaicin pretreatment significantly increased the ISP contents of both the periventricular preoptic area and nucleus amygdaloideus medialis in SHR rats. These results indicate that the effects of capsaicin treatment of the ISP contents of nervous systems tissues vary with both the tissues examined and the strain of rat. In addition, the previously reported long-lasting hypotensive effect produced by capsaicin in both the WKY and SHR strains may be related to the significant depletion of the ISP contents in peripheral sympathetic ganglia in both strains.
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PMID:Capsaicin treatment in adult Wistar-Kyoto and spontaneously hypertensive rats: effects on substance P contents of peripheral and central nervous system tissues. 618 Sep 12

Electrical stimulation of the feline vagal or splanchnic nerves after hexamethonium blockade of nicotinic ganglionic transmission produces gastric contractions, suggesting antidromic activation of thin afferents. The present experiments were performed to examine whether substance P is involved as a transmitter in such gastric responses. Cats were anesthetized with chloralose, laparotomized and the adrenals were ligated. The left greater splanchnic nerve, proximal to the celiac ganglion, and the left or right cervical vagal nerve were dissected, cut and placed on electrodes for peripheral stimulation. Gastric motility was monitored with a balloon. Hexamethonium was administered i.v. as well as i.a. to the stomach. Nerve stimulations produced powerful gastric contractions, which were antagonized by large doses (approximately 0.8 mumol) of substance P administered i.a. to the stomach. Similarly, the gastric contractions elicited by vagal or splanchnic nerve stimulations were reduced to at least 60% of control by the specific substance P antagonist (D-Pro2, D-Trp7,9)-SP administered i.a. (0.4-1.3 mumol). The present results support the concept that substance P is associated with gastric excitatory motor responses, possibly elicited by antidromic activation of thin afferent nerve fibres.
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PMID:Inhibition of antidromically induced stimulation of gastric motility by substance P receptor blockade. 619 90


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