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)

Secretory dose-response curves were obtained with both acetylcholine and phenylephrine treatment in rat parotid and submandibular glands. Vasoactive intestinal peptide (VIP), which produced relatively low volumes of protein-rich saliva in rat salivary glands, also enhanced acetylcholine-, phenylephrine-, and substance-P-mediated fluid and protein secretion when administered in combination with these agents. The specific mechanisms involved in the synergistic actions of VIP with substances such as acetylcholine, phenylephrine, and substance P, which are primarily linked to the production of fluid secretion in rat salivary glands, have yet to be determined.
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PMID:Vasoactive intestinal peptide interacts with alpha-adrenergic-, cholinergic-, and substance-P-mediated responses in rat parotid and submandibular glands. 247 66

The output of amylase into saliva secreted after injection of methacholine or substance P was increased after parasympathetic denervation, but the salivary concentration of amylase was unchanged. The increased output corresponded to the increased flow. Isoprenaline injected during the methacholine-induced secretion raised the output, more being secreted from the denervated than from the contralateral gland. Vasoactive intestinal peptide, given while substance P caused salivation, also increased the amylase output, but equally from the two glands.
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PMID:Secretion of amylase from the rat parotid salivary gland after degeneration of the auriculotemporal nerve. 248 19

Recent evidence has suggested that stress may suppress the immune system and increase the frequency and severity of viral and neoplastic disease. The mechanisms for stress-induced modulation of immune function are unclear, but several neuropeptides are thought to be involved. Because macrophages play an important role in the host defense against infection and neoplasia, several stress-related neuropeptides were screened in efforts to determine whether these substances affect macrophage-mediated tumoricidal activity. Adrenocorticotropin and noradrenaline each completely blocked the capacity of mouse recombinant interferon-gamma (INF-gamma) to activate murine peritoneal macrophages to a tumoricidal state as measured by the lysis of 125I-UdR-labeled melanoma target cells. Vasoactive intestinal peptide significantly potentiated the suppressive effects of noradrenaline. In contrast, neurotensin markedly enhanced the cytolytic capability of peritoneal macrophages activated with INF-gamma. Several other neuropeptides, including substance P, alpha-endorphin, beta-endorphin, Leu-enkephalin, and Met-enkephalin, had no effect on macrophage activation. These findings demonstrate that selected stress-related neuropeptides and neurohormones significantly modulate the capacity of macrophages to attain a tumoricidal state and suggest that alteration of macrophage function by neuropeptides may be a prominent feature of stress-induced enhancement of neoplastic disease.
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PMID:Modulation of macrophage-mediated tumoricidal activity by neuropeptides and neurohormones. 258 37

The ferret is widely used in functional and neuromorphological studies on the respiratory tract. We have examined the occurrence and distribution of peptide-containing and adrenergic nerve fibers (using dopamine-beta-hydroxylase as a marker). Adrenergic nerve fibers and fibers storing vasoactive intestinal peptide have a widespread distribution along the entire respiratory tract. Adrenergic nerve fibers were found in the lamina propria, as well as around blood vessels and glands and in smooth muscle. Nerve fibers storing vasoactive intestinal peptide occurred in the epithelium, the lamina propria, around blood vessels and glands, and among muscle bundles. Substance P-, neurokinin A- and calcitonin gene-related peptide-containing nerve fibers predominated beneath and within the epithelium along the entire respiratory tract. Neuropeptide Y-containing nerve fibers were prominent among smooth muscle bundles and around glands. The blood vessels in the wall of the airways were richly supplied with peptide-containing nerve fibers and adrenergic fibers. Ganglia located over the outer or dorsal surface of the tracheal wall harbored vasoactive intestinal peptide-containing nerve cell bodies. Substance P and neurokinin A invariably coexisted in the same nerve fibers. Further, coexistence of substance P/neurokinin A and calcitonin gene-related peptide was observed in the nerve fibers associated with the epithelium. Vasoactive intestinal peptide, neuropeptide Y and occasionally also substance P coexisted in the population of nerve fibers associated with blood vessels and smooth muscle. Many adrenergic nerve fibers contained neuropeptide Y.
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PMID:Peptide-containing nerve fibers in the respiratory tract of the ferret. 258 77

Specific binding sites for somatostatin have been identified in cytosolic fraction of rabbit kidney (cortex and outer medulla) using 125I-Tyr11-somatostatin. The binding was saturable and reversible, as well as time and temperature dependent. Optimal pH for binding was observed at about 7.4. Scatchard plots were compatible with the existence of two classes of binding sites: a first class with a high affinity (Kd = 40 nM) and a low binding capacity (2.0 pmol somatostatin/mg protein) and a second class with a low affinity (Kd = 222 nM) and a high binding capacity (114.3 pmol somatostatin/mg protein). Vasoactive intestinal peptide, neurotensin, substance P, Leu-enkephalin and vasopressin had practically no effect on somatostatin binding. The properties of these binding sites strongly support the concept that somatostatin could behave as a regulatory peptide on the rabbit kidney.
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PMID:Evidence for somatostatin binding sites in rabbit kidney. 287 91

The effects of various biologically active peptides on net jejunal water and electrolyte fluxes were studied in dogs in vivo. Vasoactive intestinal peptide (VIP), gastric inhibitory polypeptide (GIP), glucagon, gastrin, bombesin and neurotensin all had secretagogue activity, while methionine enkephalin stimulated net absorption. Somatostatin had no effect on net basal water and electrolyte transport, but inhibited glucagon-stimulated secretion. Secretin, calcitonin, substance P and pancreatic polypeptide (PP) did not have any effect on net water and electrolyte transport in the doses used in these experiments. The precise role played by these peptides in the control of intestinal transport has still to be determined. Studies in man have confirmed that food in the proximal small bowel stimulates secretion at sites remote from the application of food, and abnormal secretion of some peptides (e.g. VIP) has been associated with diarrhoea. Somatostatin has been used successfully to reduce the volume of certain types of secretory diarrhoea. Methods used in these experiments have been applied to the study of the composition and absorption characteristics of solutions used for oral rehydration in diarrhoea and in exercise-induced dehydration. Glucose polymers have been shown to be absorbed as rapidly as glucose from the jejunum.
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PMID:The effect of luminal and hormonal factors on small intestinal water and electrolyte transport. 287 15

The responses of the circular muscle of canine colon to stimulation of intrinsic nerves and to the probable mediators of these nerves were studied in vivo. In vivo studies were carried out using close intra-arterial injections and local field stimulation of proximal, mid-, and distal colon while recording circumferential contractions. Our results suggest that acetylcholine is the major excitatory mediator, but another excitatory mediator could be released by high frequency field stimulation after atropine. Norepinephrine had mixed inhibitory and excitatory effects, but no evidence was obtained that it was released by field stimulation. Substance P had mainly excitatory effects partly by a mechanism involving nerves and partly by a direct effect on muscle; it in addition to norepinephrine deserves further evaluation as the mediator of noncholinergic excitation to high frequency field stimulation. There is no explanation of the inhibition it produced after initial excitation during field stimulation. Vasoactive intestinal peptide had inhibitory effects but these were incomplete and inconsistent. This may be related to our inability to demonstrate relaxation or inhibition to field stimulation after atropine. Further evaluation of the possible role of vasoactive intestinal peptide and other agents as nonadrenergic, noncholinergic inhibitory mediators is required.
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PMID:Neural control of canine colon motor function: studies in vivo. 290

Calcitonin gene-related peptide (CGRP) in the thyroid has a dual localization to nerve fibers around blood vessels and follicles and to parafollicular (C) cells. CGRP was found to coexist with substance P (SP) in most of the nerve fibers; a few CGRP fibers seemed to lack SP, and a few SP fibers seemed to be devoid of CGRP. In the C cells, CGRP coexisted with calcitonin (CT). Cervical vagotomy (extirpation of the nodose ganglion) eliminated approximately 50% of the CGRP/SP fibers in the thyroid without any overt influence on CGRP/CT in the C cells. Removal of the superior cervical ganglion or chemical sympathectomy (6-hydroxydopamine treatment) affected neither thyroid CGRP/SP nerve fibers nor CGRP/CT-storing C cells. CGRP nerve cell bodies were numerous in the jugular-nodose ganglionic complex (notably in the jugular portion); in many of them, CGRP coexisted with SP. A few scattered CGRP nerve cell bodies also occurred in the laryngeal ganglion, whereas none was found in the thyroid ganglion. Hypercalcemia evoked by vitamin D2 treatment, which is known to degranulate thyroid C cells, reduced the thyroid content of both CGRP and CT. As tested in mice in vivo, CGRP and SP alone or together had no effect on basal or TSH- or isoprenaline-induced thyroid hormone secretion. Vasoactive intestinal peptide-stimulated iodothyronine release, on the other hand, was enhanced by CGRP, but not by SP. SP had no effect on combined vasoactive intestinal peptide-CGRP-stimulated iodothyronine release. These findings suggest that CGRP participates in the control of thyroid hormone secretion and that, like CT, CGRP in the C cells is under control of the serum calcium level.
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PMID:Calcitonin gene-related peptide in thyroid nerve fibers and C cells: effects on thyroid hormone secretion and response to hypercalcemia. 309 6

Many regulatory peptides have been described in the respiratory tract of animals and humans. Some peptides (bombesin, calcitonin, calcitonin gene-related peptide) are localised to neuroendocrine cells and may have a trophic or transmitter role. Others are localised to motor nerves. Vasoactive intestinal peptide and peptide histidine isoleucine are candidates for neurotransmitters of non-adrenergic inhibitory fibres and may be cotransmitters in cholinergic nerves. These peptides may regulate airway smooth muscle tone, bronchial blood flow and airway secretions. Sensory neuropeptides (substance P, neurokinin A and B, calcitonin gene-related peptide) may contract airway smooth muscle, stimulate mucus secretion and regulate bronchial blood flow and microvascular permeability. If released by an axon reflex mechanism these peptides may be involved in the pathogenesis of asthma. Other peptides, such as galanin and neuropeptide Y, are also present but their function is not yet known.
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PMID:Regulatory peptides in the respiratory system. 359

The responsiveness (grams per millimeter squared) and sensitivity (pD2 value) of various agonists were examined in isolated stored human bronchial and pulmonary arterial and venous preparations. In isolated bronchial muscles, large preparations (internal diameter about 6 mm) were less responsive (grams per millimeter squared) to contractile agents than smaller preparations (internal diameter approximately 2 mm). Noncumulative concentration-effect curves were produced in bronchial preparations using histamine, acetylcholine, carbachol and barium chloride. Histamine contracted both bronchial and vascular preparations whereas 5-hydroxytryptamine contracted only vascular tissues. The latter effect was always blocked by either methysergide or ketanserin. 5-hydroxytryptamine relaxed bronchial tissues that were contracted with either histamine, acetylcholine or prostaglandin E2. This relaxation was not antagonized by methysergide, ketanserin, propranolol or indomethacin. Dimaprit and 4-methyl histamine were without effect in isolated contracted bronchial preparations. Vasoactive intestinal peptide, Substance P and platelet-activating factor when added to preparations at resting tone failed to induce a contraction. These agents did not relax histamine-contracted isolated human pulmonary muscle preparations. Anti-immunoglobulin E antibody sometimes contracted isolated human bronchial muscle but not pulmonary vascular preparations. However, these data were difficult to assess because of the variations observed. Anti-immunoglobulin G antibody was inactive. Noradrenaline did not elicit a physiological response in isolated bronchial muscle preparations at concentrations which always induced a contraction in the pulmonary vascular preparations. In the presence of propranolol, noradrenaline neither contracted nor relaxed isolated human bronchial preparations. We also determined the sensitivity of isolated bronchial muscle preparations to isoproterenol, salbutamol and theophylline.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Response and sensitivity of isolated human pulmonary muscle preparations to pharmacological agents. 398 55


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