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:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effect of vasoactive intestinal peptide (VIP), somatostatin (SOM), and substance P (SP) on IL-4-stimulated human IgE and IgG subclass production. VIP and SOM, but not SP, inhibited IgE production without affecting IgM or IgA production by mononuclear cells (MNC) from nonatopic donors from 10 pM to 10 nM. These neuropeptides also differentially modulated IgG subclass production. While IgG1 production was not affected by VIP, SOM, or SP, all of the neuropeptides enhanced IgG2 production. By contrast, SOM and SP, but not VIP, inhibited IgG3 production, whereas VIP and SP, but not SOM, enhanced IgG4 production. The effect by neuropeptides was specific since each peptide effect was specifically blocked by each antagonist. To achieve this effect, neuropeptides must be added at the start of the culture and be present throughout the entire culture period. The inhibition of IgE production was not mediated by known inhibitors of IgE production, IFN-gamma or PGE2, because the addition of anti-IFN-gamma mAb (10 micrograms/ml) or indomethacin (0.1 microM) did not overcome the inhibition of IgE production. In contrast to MNC, neuropeptides did not affect IgG subclass production in purified B cells. IgE production was not induced by IL-4 in purified B cells. Neuropeptides also failed to modulate IgG subclass production in cultures of B cells with either T cells or monocytes. However, they modulated IgE production and IgG subclass production in B cells in the presence of T cells and monocytes. In purified B cells, IL-4 plus anti-CD40 mAb induced IgE production which was not inhibited by VIP or SOM. However, VIP or SOM, but not SP, inhibited IgE production in B cells cultured with both T cells and monocytes. Finally, the mechanism of modulation of IgE and IgG4 production was dependent on IL-4-induced switching, since neuropeptides modulated IgG4 and IgE production in surface IgG4-negative (sIgG4-) and sIgE- B cells, respectively. In contrast, modulation of IgG2 and IgG3 production was not due to switching, since neuropeptides did not affect either IgG2 or IgG3 production in sIgG2- or sIgG3- B cells, respectively.
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PMID:Differential effect of vasoactive intestinal peptide, somatostatin, and substance P on human IgE and IgG subclass production. 138 70

Unlike human mast cells associated with mucosal surfaces such as lung, adenoids, tonsils and intestine, skin mast cells may be stimulated to release histamine by the neuropeptides substance P, vaso-active intestinal polypeptide and somatostatin or by other basic secretagogues such as morphine and compound 48/80. Release of histamine by neuropeptides is rapid and accompanied by minimal generation of the eicosanoids prostaglandin D2 and leukotriene C4. Transient elevations of intracellular calcium are associated with mediator secretion induced by both immunological and non-immunological stimulation, that induced by anti-IgE being derived from extracellular sources through channels in the plasma membrane while that stimulated by neuropeptides is mobilized intracellularly. Similarly, elevations of intracellular cyclic AMP induced by anti-IgE occur only in the presence of extracellular calcium, whereas with substance P elevations are apparent even in the absence of extracellular calcium. With the latter stimulus, histamine release is complete before the peak cyclic AMP is achieved. Despite these biochemical and temporal differences, degranulation induced by both secretagogues proceeds by compound exocytosis which is indistinguishable under the electron microscope. From these results we suggest that IgE-dependent and neuropeptide stimulation of human skin mast cells proceed by distinct biochemical pathways which eventually merge to produce exocytosis of their preformed granule-associated mediators.
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PMID:Neuropeptide-induced secretion from human skin mast cells. 171 93

Mast cells are involved in allergic reactions where they release numerous vasoactive and other mediators in response to IgE and antigen. They are also activated by neuropeptides and are found in close contact with neurons. Mast cell heterogeneity has now been documented for mucosal mast cells and connective tissue mast cells. Rat brain mast cells were studied in a perfusion system and were shown to release serotonin in response to the mast cell secretagogue compound 48/80 (C48/80). High-potassium neuronal depolarization also released serotonin, but this was calcium dependent, not associated with beta-hexosaminidase, and was unaffected by prior treatment with C48/80. Neuronal depolarization, however, was associated with somatostatin secretion and substantially reduced subsequent C48/80 stimulation, an effect abolished by neonatal treatment of the animals with capsaicin. Perfusion with somatostatin and substance P also induced brain mast cell serotonin release. C48/80 stimulation of combined thalamic and hypothalamic slices after neuronal depolarization substantially reduced the C48/80 effect, suggesting the possible presence of endogenous inhibitors released from the hypothalamus. Finally, the alpha 2-receptor agonist clonidine had a slight stimulatory effect. These results indicate that brain mast cell serotonin release may be regulated by endogenous neurotransmitters and/or neuromodulators.
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PMID:Endogenous regulation of rat brain mast cell serotonin release. 172 Apr 23

Mast cells of the human skin not only release mediators following immunological activation, but may also be stimulated to release histamine by the neuropeptides substance P, vasoactive intestinal polypeptide and somatostatin or by other basic secretagogues such as morphine, poly-L-lysine and compound 48/80. Release of histamine under these conditions is rapid and accompanied by minimal generation of the eicosanoids, prostaglandin (PG)D2 and leukotriene (LT)C4. Transient elevations of intracellular calcium are associated with mediator secretion induced by both stimuli, that induced by anti-IgE being derived from extracellular sources through channels in the plasma membrane while that stimulated by neuropeptides is mobilized intracellularly. Similarly, elevations of intracellular cyclic adenosine monophosphate (AMP) induced by anti-IgE occur only in the presence of extracellular calcium whereas with substance P elevations are apparent even in the absence of extracellular calcium. With the latter stimulus, histamine release is complete before the peak cyclic AMP is achieved. Histamine release stimulated by both secretagogues is unaffected by sodium cromoglycate or nedocromil sodium but is reduced by both salbutamol and isobutylmethylxanthine. Despite these biochemical and temporal differences, degranulation induced by both secretagogues proceeds by compound exocytosis which is indistinguishable under the electron microscope.
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PMID:Mediator secretion from human skin mast cells provoked by immunological and non-immunological stimulation. 172 14

Peptide mediators of sensory nerves that are released in tissues by noxious chemical and physical insults and by diverse biologic challenges rapidly elicit local and systemic responses similar to those of immediate hypersensitivity. The sensory neuropeptides have direct effects on the functions of smooth muscles, blood vessels, leukocytes, and epithelial glands and indirect effects through the actions of mediators released from mast cells stimulated by the peptides. Sensory neuropeptides exhibit cellular specificity, as exemplified by the greater potency of substance P in activating mucosal mast cells than connective tissue mast cells. The capacity of somatostatin to inhibit release of mediators from basophils challenged by IgE-dependent mechanisms, but not by basic peptides or ionophores, illustrates the biochemical specificity of the neuropeptides. The selective release of distinct sensory neuropeptides from different subsets of nerve endings, the specificity of neuropeptide recognition by mast cells, basophils, and other target cells, and the diversity of direct and indirect activities of the neuropeptides suggest that sensory nerves may initiate and modulate immediate hypersensitivity by unique mechanisms.
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PMID:Neuropeptide regulation of the expression of immediate hypersensitivity. 240 68

Purified rat peritoneal mast cells were incubated overnight with or without hydrocortisone (3 X 10(-6) M) and then stimulated with anti-IgE, somatostatin or a phorbol ester-ionophore combination, i.e., 12-O-tetradecanoyl-phorbol-13-acetate and A23187. The release of both histamine and [1-14C]arachidonic acid and its metabolites was determined. Hydrocortisone treatment markedly inhibited both anti-IgE and TPA-A23187 stimulated release, but not release stimulated by somatostatin. These results suggest that anti-inflammatory steroids may alter histamine release through an action involving the activation of the phosphatidylserine-calcium dependent protein kinase or its substrates.
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PMID:Hydrocortisone inhibits phorbol ester stimulated release of histamine and arachidonic acid from rat mast cells. 241 Dec 63

The tetradecapeptide somatostatin (SOM 14) and a 28-amino acid biosynthetic precursor (SOM 28) are constituents of diverse neuroendocrine tissues that are released by noxious stimuli from a subset of sensory nerve endings, and substantially modify the functions of basophils and mast cells. SOM-like factors were detected initially in the fluid phase of suspensions of immunologically challenged rat basophilic leukemia cells (RBL), and were purified from ethanol/0.2 M acetic acid (3/1, v/v) extracts of replicate portions of 3 X 10(9) RBL. Sephadex G-25 columns resolved factors of over 10,000, 2000 to 4000, and 300 to 1200 daltons that are antigenically related to SOM 14, as assessed by a radioimmunoassay specific for SOM 14. Only the two larger factors were detected by a radioimmunoassay for SOM 28(1-14), which binds to prepro-SOM and SOM 28 but not SOM 14. Reverse-phase high performance liquid chromatography distinguished the two smaller SOM peptides of RBL from SOM 28 and SOM 14, respectively. Amino acid analyses showed major differences in composition between the 2000 to 4000 dalton SOM of RBL and SOM 28. Picomolar to nanomolar concentrations of both of the smaller SOM peptides of RBL inhibited the IgE-dependent release of histamine from basophils to the same extent as SOM 14. The finding of 3 to 5 ng of structurally unique SOM-like peptides per 10(8) RBL suggests that endogenous mechanisms analogous to those of specialized sensory neurons may regulate the expression of hypersensitivity.
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PMID:Endogenous somatostatin-like peptides of rat basophilic leukemia cells. 241 11

Substance P (SP), somatostatin (Som), and vasoactive intestinal polypeptide (VIP) induced a concentration-dependent release of histamine from isolated rat peritoneal mast cells. The release of histamine induced by these neuropeptides was inhibited by preincubation of the cells with the SP analogue [D-Pro4,D-Trp7,9,10]-SP4-11 (SP-A) (10 microM), and also by benzalkonium chloride (10 microM). In addition, SP-A inhibited histamine release induced by compound 48/80, whilst that induced by goat anti-(rat-IgE) was unaffected. In human skin, intradermal injection of SP, Som, or VIP produced flare and wheal responses. The flares to all three peptides were inhibited by preinjection of the skin with SP-A (25 pmol), whilst the wheal responses were unaffected. It is concluded that the receptors mediating histamine release and the flare response are similar, and that SP, Som, and VIP are acting at a similar receptor to produce these effects. It is probable that this receptor is also the site of action of compound 48/80.
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PMID:On the actions of substance P, somatostatin, and vasoactive intestinal polypeptide on rat peritoneal mast cells and in human skin. 241 71

Peptide mediators of sensory nerves that are released in tissues by noxious stimuli or inflammatory reactions rapidly elicit local and systemic responses similar to those of immediate hypersensitivity. These sensory neuropeptides affect functions of smooth muscles, blood vessels, leukocytes, and epithelial glands both directly and indirectly, through the actions of mediators released from mast cells stimulated by the peptides. Stereospecific receptors transduce the effects of neuropeptides of the peripheral nervous system (PNS) and central nervous system (CNS) on diverse functions of human, murine and guinea pig mononuclear and polymorphonuclear leukocytes, mast cells, and basophils in vitro and in vivo. Stimulatory and inhibitory effects of neuropeptides on leukocytes are attained in vitro at concentrations which are similar to those in the circulation and in tissues. The dissociation constant (KD) for the binding of a neuropeptide to its leukocyte receptor is within the range of concentrations that evoke cellular responses critical to immunity and hypersensitivity. Neuropeptides exhibit both cellular and stimulus specificities, as exemplified by the greater potency of substance P in activating mucosal than connective tissue mast cells and the capacity of somatostatin to inhibit the release of mediators from basophils challenged by IgE-dependent mechanisms, but not by basic peptides or ionophores. The selective release of distinct neuropeptides from different subsets of sensory nerve endings, the specificity of neuropeptide recognition by mast cells, basophils, lymphocytes, and other target cells, and the diversity of relevant activities of the neuropeptides suggest that the nervous system may initiate and modulate immediate and delayed hypersensitivity by unique mechanisms.
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PMID:Neuropeptide regulation of immediate and delayed hypersensitivity. 245 50

1. Human skin mast cells, unlike other human mast cells so far studied, released histamine in a concentration-related manner in response to substance P, vasoactive intestinal peptide (VIP) and somatostatin (1 microM to 30 microM). In contrast, eledoisin, physalaemin, neurokinin A, neurokinin B, calcitonin gene-related peptide (CGRP), neurotensin, bradykinin and Lys-bradykinin induced negligible histamine release. 2. The low histamine releasing activity of physalaemin, eledoisin, neurokinin A and neurokinin B relative to substance P suggests that the human skin mast cell activation site is distinct from the tachykinin NK-1, NK-2 or NK-3 receptors described in smooth muscle. 3. The relative potencies of substance P and its fragments SP2-11, SP3-11, SP4-11 and SP1-4 in releasing histamine from human skin mast cells suggests that both the basic N-terminal amino acids and the lipophilic C-terminal portion of substance P are essential for activity. 4. Peptide-induced histamine release, like that induced by compound 48/80, morphine and poly-L-lysine, is rapid, reaching completion in 10-20 s, is largely independent of extracellular calcium but requires intact glycolysis and oxidative phosphorylation. 5. The substance P analogue, [D-Pro4,D-Trp7,9,10] SP4-11 (SPA), not only reduced substance P-induced histamine release in a concentration-related manner but also inhibited that induced by VIP, somatostatin, compound 48/80, poly-L-lysine and morphine but not anti-IgE. 6. The similar characteristics of histamine release induced by substance P, VIP, somatostatin, compound 48/80, poly-L-lysine and morphine suggest that they share a common pathway of activation-secretion coupling distinct from that of IgE-dependent activation. Furthermore, the ability of human skin mast cells to respond to basic non-immunological stimuli including neuropeptides may reflect a specialised function for these cells.
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PMID:Characterization of neuropeptide-induced histamine release from human dispersed skin mast cells. 246 82


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