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6. Prostaglandins inhibit secretion of histamine and pancreastatin from isolated rat stomach ECL cells.

Author

Lindström E and Håkanson R

Subjects
Animals, Cells, Cultured, Chromogranin A, Gastric Mucosa cytology, Gastric Mucosa metabolism, Gastrins pharmacology, Neuropeptides pharmacology, Pituitary Adenylate Cyclase-Activating Polypeptide, Rats, Gastric Mucosa drug effects, Histamine Release drug effects, Pancreatic Hormones metabolism, Prostaglandins pharmacology
Abstract

1. The present study examines the effect of naturally occurring prostanoids and prostaglandin (PG) congeners on gastrin- and pituitary adenylate cyclase-activating peptide (PACAP)-evoked histamine and pancreastatin secretion from isolated rat stomach ECL cells. 2. ECL cells (75-85% purity) were isolated from rat stomach using pronase digestion followed by repeated counter-flow elutriation and cultured for 48 h before secretion experiments. The release of histamine and pancreastatin was determined by radioimmunoassay. 3. None of the PGs tested stimulated the release of either histamine or pancreastatin. 4. PGE1 and PGE2 inhibited both gastrin- and PACAP-evoked histamine and pancreastatin secretion (IC50 = 1-2 x 10(-10) M). Most other naturally occuring prostanoids and PG congeners had no or little inhibitory effect. The PGE analogues misoprostol and sulprostone were more potent (IC50 = 0.9 x 10(-11) M and 2 x 10(-11) M respectively) than PGE1 and PGE2. The rank order of potency was misoprostol > sulprostone > PGE1 = PGE2, suggesting the involvement of the so-called EP3 receptor. 5. The effects of PGs on the stomach ECL cells may be direct or indirect, for instance through the stimulated release of somatostatin from contaminating D cells (2-3%). However, the amount of somatostatin in the cell culture after 48 h was below the limit of detection, and somatostatin immunoneutralization did not prevent misoprostol from inhibiting secretion from the ECL cells. 6. The misoprostol-induced inhibition was reversed by pertussis toxin suggesting the involvement of G-protein subunits G alpha(0) and/or G alpha(i). 7. In view of the potency by which PGE1, PGE2, misoprostol and sulprostone inhibited the stimulated release of histamine and pancreastatin, we suggest that the ECL cells represent a primary target for prostaglandins acting via an EP3 receptor in the oxyntic mucosa. 8. The results suggest that the clinically useful effect of misoprostol as an anti-ulcer drug reflects its ability to inhibit stomach ECL-cell histamine secretion.

Published
1998
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7. Neurokinin A-LI release after antigen challenge in guinea-pig bronchial tubes: influence of histamine and bradykinin.

Author

Lindström EG and Andersson RG

Subjects
Animals, Bradykinin analogs & derivatives, Bradykinin Receptor Antagonists, Bronchi drug effects, Capsaicin pharmacology, Guinea Pigs, Histamine H1 Antagonists pharmacology, In Vitro Techniques, Male, Muscle Contraction drug effects, Muscle, Smooth drug effects, Muscle, Smooth immunology, Pyrilamine pharmacology, Substance P metabolism, Trachea drug effects, Trachea immunology, Bradykinin pharmacology, Bronchi immunology, Histamine pharmacology, Neurokinin A metabolism, Ovalbumin pharmacology
Abstract

1. Our aim was to determine if antigen challenge stimulates sensory nerves and provokes the release of tachykinins. The involvement of histamine and bradykinin was studied by using specific receptor antagonists. Capsaicin-induced responses were also examined. Experiments were performed in vitro on tracheal and bronchial preparations from ovalbumin-sensitized guinea-pigs. 2. Characterization of ovalbumin-induced contraction, with regard to histamine and bradykinin, was carried out on airway ring preparations in the presence of phosphoramidon. The histamine H1 receptor antagonist pyrilamine reduced allergen-induced bronchial contractions by about 30%, whereas the bradykinin B2 receptor antagonist icatibant (Hoe 140) did not significantly affect the response. Combined treatment with pyrilamine (1 microM) and icatibant (0.1 microM) reduced the contractions by about 80%, indicating a synergistic inhibitory action. Tracheal preparations were not significantly affected by treatments, neither were capsaicin-induced contractions. 3. To study the outflow of tachykinins, we used a perfused bronchial-tube preparation, allowing simultaneous measurement of smooth muscle tension and mediator release. Neurokinin A-like immunoreactivity (NKA-LI) and substance P-like immunoreactivity (SP-LI) were determined by radioimmunoassay. 4. The results of the perfusion study showed an increased outflow of NKA-LI into the perfusate in response to ovalbumin (127% of basal) challenge. SP-LI determined in some of the samples showed a much lower amount (40 to 70 times lower) of SP-LI than NKA-LI. Treatment with icatibant and pyrilamine, separately and in combination, significantly reduced the ovalbumin-induced NKA-LI outflow by 38%, 26% and 22%, respectively. 5. Capsaicin-induced outflow (124% of basal) was not significantly affected by treatments (icatibant 121%, pyrilamine 107% and combined treatment 111% of basal). However, when pyrilamine was present the increased outflow was not statistically significant. 6. In conclusion, we found that allergen provocation of guinea-pig bronchi caused an increased outflow of NKA-LI that was reduced by treatment with both pyrilamine and icatibant. These findings demonstrate that the allergen-induced release of histamine and bradykinin stimulate sensory nerves and thereby increase outflow of tachykinins that contribute to the allergic reaction.

Published
1997
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