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Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High m.w. [35S]heparin, labeled in vivo or in vitro, was released from purified rat mast cells by challenge with rabbit anti-rat F(ab')2, guinea pig anti-rat IgE, or calcium ionophore. The released and the residual heparin were isolated by Dowex 1 chromatography and were of comparable size by Sepharose 4B gel filtration. The majority of the released heparin was found by differential centrifugation to be granule-associated. Net percentage of mast cell heparin release, quantitated by metachromasia after isolation on Dowex 1 chromatography, correlated in a linear fashion with net percentage of histamine release, with heparin exhibiting a threshold requirement for onset of release. The correlation of histamine and high m.w. heparin release provides chemical support for the conclusion of others from ultrastructural studies that mast cell activation by immunologic means or by the calcium ionophore results in secretion of the whole granule.
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PMID:Immunologic release of heparin from purified rat peritoneal mast cells. 32 87

Net ion transport by jejunum of rats immunized against Trichinella spiralis on challenge with parasite-derived antigen was measured in Ussing chambers as a rapidly expressed, biphasic rise and fall (phase I and II) in short-circuit current (delta Isc). This delta Isc is triggered by mucosal anaphylaxis. Our objective is to identify mast cell-derived substances that mediate the epithelial response. Antigenic challenge of sensitized jejunum caused the release of 5-hydroxytryptamine (5-HT), histamine, and prostaglandin E2 (PGE2). The antigen-induced phase I response was mimicked by exogenous 5-HT or histamine and blocked by pretreatment of tissue with 5-HT and histamine H1-antagonists; the phase II response was mimicked by exogenous PGE2 and blocked by an inhibitor of prostaglandin synthesis. Atropine and tetrodotoxin significantly blunted the phase I response as well as the delta Isc caused by exogenous 5-HT or histamine while only slightly reducing the phase II response and not affecting the delta Isc induced by PGE2. Results support the conclusion that 5-HT, histamine, and PGE2 mediate the antigen-induced change in Isc through direct and neurally mediated stimulation of jejunal epithelium.
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PMID:Mediators of anaphylaxis-induced ion transport changes in small intestine. 244 13

Antigen challenge of jejunal epithelium from rats sensitized to egg albumin induces an active Cl- secretory process secondary to release of mucosal mast cell mediators. The present study was designed to define the relative role of these mast cell mediators and the enteric nervous system in the transport abnormalities associated with intestinal anaphylaxis. Net ion transport of stripped jejunal tissue from sensitized and sham-treated animals was studied in Ussing chambers. The Cl- secretory response induced by egg albumin during intestinal anaphylaxis was similar to that after addition of 5-hydroxytryptamine (5-HT), histamine, and prostaglandins D2 and E2 to jejunal tissue. Cinanserin, a 5-HT2-receptor antagonist, virtually abolished the response to 5-HT and totally abolished the response to egg albumin. Methysergide, a 5-HT1-receptor antagonist had no effect on either response. Indomethacin, an inhibitor of prostaglandin synthesis, significantly inhibited the 5-HT and egg albumin response. Diphenhydramine, an H1-receptor antagonist and cimetidine, an H2-receptor antagonist both significantly inhibited the histamine response but neither altered the response to egg albumin. Atropine, an anticholinergic, and tetrodotoxin, a nerve blocker, did not inhibit the antigen induced anaphylactic response. These results indicate that 5-HT, acting through 5-HT2 receptors is largely responsible for the transport abnormalities seen in intestinal anaphylaxis induced by egg albumin while prostaglandins appear to play a partial role. The findings do not support a role for the enteric nervous system for the egg albumin induced changes in Cl- secretion.
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PMID:Intestinal anaphylaxis in the rat: mediators responsible for the ion transport abnormalities. 251 72

Our previous studies demonstrated that rats sensitized to egg albumin had reduced intestinal absorption of water and electrolytes in response to intraluminal antigen. The rapid onset of this effect and reduction in mucosal histamine and numbers of granulated mast cells in the lamina propria suggested a reaginic (IgE) mechanism involving mast cell mediators. In this study we examined the effect of antiallergic agents on the intestinal transport abnormalities in our model. Sensitized rats, 14 days after intraperitoneal injection of 10 micrograms of egg albumin plus alum had specific IgE serum titers greater than or equal to 1:64; control rats had no measurable IgE antibodies. Net fluxes of Na+, Cl-, and H2O were determined by in vivo perfusion during a 1-hour antigen-free period and then a 1-hour antigen period. Sodium cromoglycate, administered intravenously (20 mg/kg) or in the perfusate (5 X 10(-4) mol/L) failed to prevent mucosal mast cell degranulation as evidenced by histamine release or the decrease in absorption of H2O, Na+, and Cl- induced by antigen exposure. In contrast, 10(-3) mol/L of doxantrazole in the perfusate completely inhibited these changes. Histamine receptor antagonists, H1, diphenhydramine, or H2, cimetidine, in perfusates had no effect on the transport abnormalities. Our findings support a role for intestinal mucosal mast cells, but not connective tissue mast cells, in the pathogenesis of the intestinal dysfunction associated with mucosal IgE-mediated reactions to food proteins and suggest that mast cell mediators other than histamine are involved.
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PMID:Transport abnormalities during intestinal anaphylaxis in the rat: effect of antiallergic agents. 286 97

Immunologically mediated expulsion of Trichinella spiralis infective larvae in the rat was used as a model to test the hypothesis that intestinal anaphylaxis induced by parasite antigen causes ion transport alterations in small intestinal epithelium, and that the small intestinal epithelium, by altering its physiologic state in response to mast cell-derived mediators, functions as an effector tissue in the expulsion process. Experimental results demonstrated that the rapid rejection response and antigen-inducible changes in net intestinal ion transport acquired through active immunization were transferable with serum containing a high titer of anti-trichinella homocytotropic antibody, as measured by the PCA test. Neither response was expressed in nonimmune hosts nor in recipients of serum in which the PCA-detectable antibody was reduced by heat treatment. Net ion transport by jejunal epithelium of both actively and passively immunized rats was measured in Ussing chambers by using the electrical correlate, short circuit current (Isc). Involvement of chloride secretion in antigen-induced alterations in Isc was deduced from the use of chemical agents that effectively and specifically blocked the antigen-induced Cl- secretory response. The results implicate anaphylaxis in both rapid worm rejection and altered epithelial ion transport.
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PMID:Anaphylaxis-mediated epithelial Cl- secretion and parasite rejection in rat intestine. 380 21

We examined the effect of intraluminal antigen on intestinal function in an animal model of anaphylaxis using Hooded-Lister rats sensitized to ovalbumin. Older rats were more difficult to sensitize than younger ones; younger rats more consistently developed antiovalbumin titers of greater than or equal to 1:64 as measured by passive cutaneous anaphylaxis. That these immunoglobulins were of the immunoglobulin E class was suggested by the fact that heating of the sera to 56 degrees C for 3 h eliminated the response. Net fluxes of water and electrolytes were measured in sensitized rats with serum titers greater than or equal to 1:64 and compared with nonsensitized sham-treated controls during two periods: when the perfusate was antigen-free and after the addition of antigen. Intraluminal antigen challenge had no effect in controls but caused a rapid and dramatic reduction in water, Na+, Cl-, and K+ absorption in experimental animals (greater than or equal to 1:64). There was no evidence of recovery after antigen withdrawal, and the response was antigen-specific. Mucosal homogenates prepared after antigen challenge in sensitized animals contained significantly less histamine than homogenates prepared from controls, and granulated mucosal mast cell numbers were reduced. Light microscopy did not reveal any alteration of villus height or crypt depth, but mucosal edema was apparent in sections from sensitized animals. The findings suggest that anaphylactic reactions to food proteins in the intestine lead to abnormalities of water and electrolyte absorption and that histamine, or other mast cell mediators, or both, may be responsible.
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PMID:Effect of intestinal anaphylaxis on gut function in the rat. 669 7

In view of the high incidence of canine cutaneous atopic disease and the relevance of mast cells to its pathogenesis, it was considered important to isolate firstly cutaneous mast cells from normal dog skin and to assess the histamine secretory activity, as this can be further used as a tool for the study of canine skin mast cell pharmacology in cutaneous atopy. The procedure for canine dermal mast cell dispersion following a skin enzymatic digestion (as for previous human skin mast cell dispersion methods) is described in detail. The number of canine cutaneous mast cells yielded per gram of skin was 2.31 +/- 0.21 x 10(5) representing 1.00% of the total cutaneous cells. The total histamine content per mast cell is 4.93 +/- 0.39 pg. Net histamine release owing to stimulation by calcium ionophore A23187 (1 microM) and concanavalin A (1 mg ml-1) was respectively 32.17 +/- 3.56% and 20.39 +/- 2.41% of the total amount per cell. Viability and reactivity to both stimuli of dispersed cutaneous mast cells were similar to the results found in humans. The present study allows further research on the role of mast cells immunopharmacology in allergy by investigation of cells isolated from canine skin in naturally occurring or experimentally induced atopy in the dog to be undertaken.
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PMID:Canine cutaneous mast cells dispersion and histamine secretory characterization. 750 40

Diquat, a nonselective desiccant herbicide, induces a significant secretion of fluid into the lumen of the gastrointestinal tract of rats at sublethal doses (from 0.5 to 50 mg/kg). This study investigated the effect of an acute low-level exposure to diquat (0. 1, 0.5, and 1 mg/kg) on intestinal net water flux and the mechanisms involved. In anesthetized rats, an intestinal loop (7 cm) was infused with Ringer's buffer containing [14C]-polyethylene glycol 4000. After equilibration, diquat (0.1, 0.5, and 1 mg/kg) was added to Ringer's buffer during 60 min. Net water flux was calculated according to [14C] activity determined in the effluent collected at 15-min intervals. Infused in the intestinal loop for 60 min at doses of 0.5 and 1 mg/kg but not at 0.1 mg/kg, diquat induced an intestinal net water secretion during 180 min with a maximal effect at the highest dose used and during the first hour following the end of diquat infusion. Diquat-induced (1 mg/kg) intestinal net water secretion was blocked by a neurotoxin, tetrodotoxin (5 micrograms/kg iv), doxantrazole (5 mg/kg ip), a mast cell stabilizer, and two inhibitors of NO synthases: l-NAME (25 mg/kg ip) and aminoguanidine (2 mg/kg ip). It is concluded that a single low-level (0.5 and 1 mg/kg) intrajejunal administration of diquat induces a net water intestinal secretion and that this secretory effect is nerve-mediated, implying mast cell degranulation and NO release.
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PMID:Low-level exposure to diquat induces a neurally mediated intestinal hypersecretion in rats: involvement of nitric oxide and mast cells. 977 2