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 endocrine cells of rainbow trout pyloric ceca and intestine have been investigated immunocytochemically using the avidin-biotin method. Twenty-six antisera were tested and 13 endocrine cell types immunoreacted with antisera to serotonin, somatostatin-25, bombesin, C-flanking bombesin, substance P, salmon PP, NPY, PYY, PP, glucagon, GLP1, Met-enkephalin, and CCK/G. Glucagon and GLP1 immunoreactivities appear in the same cells. Nerves positive to serotonin, substance P, PHI, and VIP were also found. The presence of cells positive to somatostatin-25, C-flanking bombesin, and salmon PP are described for the first time in fish intestine.
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PMID:Endocrine cells and nerves in the pyloric ceca and the intestine of Oncorhynchus mykiss (Teleostei): an immunocytochemical study. 138 78

This light microscopic immunohistochemical study investigates the distribution and target interrelations of nerve fibers in bronchus-associated lymphoid tissues (BALT) of rat and cat by using antisera against (1) the polyneuronal marker protein gene product 9.5 (PGP 9.5), (2) selected opioid and nonopioid peptides, and (3) the marker enzymes tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH). In both species, a similar distribution pattern of PGP, peptide, and catecholamine enzyme immunoreactive was observed. Anti-PGP 9.5 stained all nerve fibers (except some smaller, calcitonin gene-related peptide-immunoreactive (CGRP-ir) fibers presumably of the C-type) throughout the different compartments of BALT, e.g., under the epithelium, in the smooth muscle layer, along the vasculature, and between immune cells of BALT parenchyma. The distribution of fibers staining for peptides (substance P (SP), (CGRP), neuropeptide Y (NPY). Leu-enkephalin, Met-enkephalin-Arg-Gly-Leu) and/or the catecholamine enzymes was also not compartment-specific. However, the density of the different peptidergic fibers and those staining for the marker enzymes exhibited region- and target-specific variations, e.g., fibers, cocontaining substance P and CGRP were more ubiquitous in nonvascular regions than codistributed NPY-, TH-, and DBH-ir fibers, which clearly prevailed in perivascular plexus. Regularly, nerve fibers staining for any of the peptides and markers investigated formed close contacts with mast cells, cells of the macrophage/monocyte cell line (identified as ED1 + cells), and/or other lymphoid cells, although with different frequencies. We assume that the SP/CGRP innervation is mainly of primary sensory origin, while the NPY innervation is chiefly derived from postganglionic noradrenergic sympathetic neurons. The VIP/PHI component is most likely postganglionic cholinergic while the opioid component, apparently derived from the Proenkephalin precursor, could be of differential origin. We propose that the neuroimmune connections in BALT play a significant role in the regulation and/or modulation of physiological/pathophysiological mechanisms of the lung. BALT may also be an integral part of the psycho-neuro-immune axis.
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PMID:The neuroimmune link in the bronchus-associated lymphoid tissue (BALT) of cat and rat: peptides and neural markers. 167 20

Light microscopic immunohistochemistry was employed to elucidate and compare the presence, distribution, and coexistence of various peptides, neuroendocrine markers and enzymes of the catecholamine pathway in nerves supplying lymphoid tissues in a variety of mammalian species. All lymphoid organs and tissues receive innervation by fibers containing dopamine-beta-hydroxylase and/or tyrosine hydroxylase, neural markers like protein gene product 9.5, synaptophysin and neurofilament and a varied spectrum of peptides. The prominent peptides were tachykinins (substance P, neurokinin A), calcitonin gene-related peptide (CGRP), neuropeptide Y (NPY), and vasoactive intestinal polypeptide/peptide histidine isoleucine (VIP/PHI). Opioid innervation was variable. Double immunofluorescence revealed coexistence of tachykinins and CGRP and of tyrosine hydroxylase and NPY. A minor proportion of fibers showed coexistence of NPY and tachykinins and of VIP/PHI and tachykinins. The possible importance of the complex peptidergic innervation of lymphoid tissues in inflammation, allergy, inflammatory pain and psycho-neuro-immuno-endocrine network function is discussed. A special immunomodulatory role of the sensory neurons is suggested.
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PMID:Molecular anatomy of the neuro-immune connection. 177 30

The peptidergic innervation of human dental pulp was studied with indirect immunofluorescence and immunoperoxidase techniques. Pulpal nerve fibres displaying immunoreactivity for cholecystokinin, calcitonin gene-related peptide, C-terminal flanking peptide of neuropeptide tyrosine, leucine-enkephalin, methionine-enkephalin, neuropeptide K, neuropeptide tyrosine, peptide with N-terminal histidine and C-terminal isoleucine, somatostatin-28, substance P and vasoactive intestinal polypeptide were observed. Immunoreactive axon varicosities were detectable within radicular and coronal nerve trunks and within the nerve plexus of Raschkow in the para-odontoblastic region. Many peptidergic nerve fibres were observed in association with blood vessels of various sizes. Substance P- and calcitonin-gene-related peptide-immunoreactive axons were visible in the odontoblastic layer. The occurrence of VIP- and PHI-immunoreactive fibres lends support to the hypothesis that human tooth may be supplied by parasympathetic nerves. The immunocytochemical results here shown provide a morphological basis to previous experimental studies concerning the possible roles of neuropeptides in nociception mechanisms, control of the blood flow and modulation of the inflammatory response in dental tissues.
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PMID:Peptidergic nerves in human dental pulp. An immunocytochemical study. 208 89

The discovery of new peptides that may or may not be members of existing peptide families is stimulating research in the field of gastrointestinal motility. Before their function in control of human motility can be predicted, both anatomic and functional pathways must be determined in a number of animal models. In many instances this has just begun. In other instances old concepts must be revised. This review examines the recent findings that motor actions attributable to VIP and by extension to its colocalized family member PHI may occur by turning off a tonic release that has held the muscle in a relaxed state. For the opioid family, some of the very complex actions are probably attributable to its action to inhibit the tonic release of VIP. For the tachykinin/neurokinin family, the focus is on the potential role as a sensory transmitter released antidromically from afferent capsaicin-sensitive nerve endings. In summarizing the actions of galanin, the reader is cautioned against any extrapolation to other species, because the actions and structure of the peptides have been found to be different in each species examined. CGRP, again a sensory transmitter found colocalized with substance P, tends to exert an opposite action on the smooth muscle from substance P (that of relaxation), and the interactions between these peptides may well prove to be important in gastrointestinal reflexes. The PP, PYY, and NPY family require much more study in gastrointestinal motor systems but appear to act as presynaptic inhibitory transmitters in a variety of local motor reflexes. One caveat from one who studies these systems is never to predict the action of a new or old peptide in your system of study, because the complexity of the system appears to determine the action expressed.
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PMID:Control of gastrointestinal motility by peptides: old peptides, new tricks--new peptides, old tricks. 247 97

Sympathetic and parasympathetic influences on the airway resistance under physiological and pathophysiological conditions have long been known. In recent years, this classical view had to be extended due to mounting evidence of neurocrine and paracrine peptide mediators. The term non-adrenergic non-cholinergic (NANC) nervous system was coined. Besides other effects the non-adrenergic mediators (e.g. VIP and PHI/PHM) give rise to bronchodilation, while the non-cholinergic modulators (SP, neurokinin A, and CGRP) induce bronchospasm. The axon-reflex theory postulates liberation of non-cholinergic peptide substances by afferent C-fibers exposed by bronchial epithelial cell damage as one important cause of bronchial obstruction. In addition to biogenic amines, such peptides as bombesin, leu-encephalin, beta-endorphin, calcitonin, doctrine cells of the bronchial epithelium. Our knowledge of the biological relevance of these mediators is at present very sketchy. Platelet activating factor (PAF) is released by alveolar macrophages, granulocytes, blood vessel endothelium, and platelets. The inhalation of PAF induces bronchospasm in healthy subjects and asthmatics and also prolonged bronchial hyperreactivity. The many factors influencing bronchial reactivity need to be classified by further investigations of the mode of interaction and interdependence of known and new mediators.
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PMID:[The significance of endocrine, neurocrine and paracrine mediators in the regulation of bronchial reactivity]. 268 1

When cytoplasmic extracts of the myenteric plexus of guinea pig ileum are submitted to centrifugal density gradient separation in a zonal rotor, conditions which separate storage particles containing substance P, somatostatin and VIP from each other, PHI copurifies with VIP. The two immunoreactivities cannot be separated by particle exclusion chromatography, which depends on size rather than density. It is concluded that the posttranslational cleavage of the propeptide or precursor to PHI and VIP occurs after packaging into these storage particles.
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PMID:A peptide with N-terminal histidine and C-terminal isoleucine amide (PHI) and vasoactive intestinal peptide (VIP) are copackaged in myenteric neurones of the guinea pig ileum. 278 Apr 16

Functional and specific receptors for vasoactive intestinal peptide (VIP) (determined by their capacity to bind 125I-VIP and activate adenylate cyclase) and cyclic AMP-dependent phosphodiesterase activities were characterized in enterocytes of human fetal small intestine between 18 and 23 weeks of gestation. Half-maximal stimulation of the cyclase and inhibition of 125I-VIP binding in membrane preparations were respectively observed at 1.4 and 5 X 10(-10) M VIP. The peptides structurally related to VIP activated the cyclic AMP generating system at pharmacological doses (10(-7) M and above) in the following order of potency: VIP greater than PHI greater than GRF greater than secretin. Other peptides or test substances, including GIP, pancreatic glucagon, somatostatin-14, gastrin, CCK, neurotensin, pancreatic polypeptide, PYY, substance P, histamine and isoproterenol are inactive in this system, while the ubiquitous adenylate cyclase activators NaF, forskolin and prostaglandins were effective. These results, combined with the appearance of intestinal VIP in nerve fibers at 8 weeks and with the morphological and enzymatic maturation at 9-12 weeks of the intestinal mucosa, indicate that this neuropeptide may regulate either the differentiation or function of enterocytes during the early development of human intestinal mucosa.
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PMID:Vasoactive intestinal peptide receptor activity in human fetal enterocytes. 298 18

1. The nonadrenergic, noncholinergic nervous system may control the airway vasculature via various neuropeptides. We have perfused the cranial tracheal arteries of the anaesthetized dog and investigated the effects of neuropeptides and capsaicin (which is supposed to release neuropeptides from sensory nerve endings) on the tracheal vasculature by injecting them locally into the perfusion system. 2. Neurokinin A (NKA, 0.02-20 pmol), calcitonin gene-related peptide (CGRP, 2-200 pmol) and peptide histidine isoleucine (PHI, 0.02-2 nmol) dose-dependently decreased tracheal vascular resistance (Rtv). NKA was 10 and 100 times more potent than CGRP and PHI, respectively. The duration of the response to CGRP was greatly prolonged with larger doses. Galanin (0.2-2 nmol) had no appreciable effect on Rtv. 3. Neuropeptide Y (NPY 0.02-2 nmol) and bombesin (0.02-10 nmol) dose-dependently increased Rtv. However, the dose-response curve for bombesin was bell-shaped suggesting the development of tachyphylaxis with larger doses. In smaller doses, bombesin was twice as potent as NPY. The duration of the response to NPY was prolonged with larger doses. 4. With the exception of PHI no neuropeptide altered tracheal smooth muscle tone; PHI (1 and 2 nmol) caused small dilatations of the trachea. 5. The effects of capsaicin (2-100 nmol) were complex. Usually, the vascular response had two dose-dependent phases: a rapid vasoconstriction followed by a small, longer-lasting vasodilatation. The tracheal smooth muscle response was usually biphasic, a contraction followed by a relaxation. 6. According to previous and present data, the order of potency of the neuropeptides on the canine tracheal vasculature is for the vasodilators : NKA > vasoactive intestinal peptide (VIP) > CGRP > substance P > PHI, and for the vasoconstrictors: bombesin > NPY. The longer-acting neuropeptides (VIP, CGRP and NPY) may be more important than the shorter-acting neuropeptides (substance P, NKA, PHI and bombesin) as regulators of the airway wall blood flow.
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PMID:Effects of neuropeptides and capsaicin on the canine tracheal vasculature in vivo. 321 86

In mammalian tissues the C-terminal amide structure has been found to occur only in neuroactive or hormonally-active peptides. About half known neuropeptide and peptide hormones have this unique chemical feature. Using a chemical detection method, a search for previously unknown peptides that possess the C-terminal amide structure in extracts of brain and intestine was carried out and a number of novel neuropeptides and hormonal peptides, designated neuropeptide Y, PHI, peptide YY, galanin and neuropeptide K were isolated. We recently performed a similar search in porcine pancreas and found a high concentration of a peptide having a glycine amide at its C-terminus. Here we report the isolation, primary structure and biological activity of this novel peptide. The 49-residue peptide strongly inhibits glucose-induced insulin release from the isolated perfused pancreas and was therefore named pancreastatin. It may be important in the regulation of insulin secretion and in the pathogenesis and treatment of diabetes mellitus.
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PMID:Pancreastatin, a novel pancreatic peptide that inhibits insulin secretion. 353 10


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