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Chapter 16,015

Histamine, cAMP, and activation of piglet gastric mucosa

Machen, T.E.; Rutten, M.J.; Ekblad, E.B.

American Journal of Physiology 242(2): G79-G84

1982

ISSN/ISBN: 0002-9513
PMID: 6175225
DOI: 10.1152/ajpgi.1982.242.2.g79
Accession: 016014278
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The involvement of cAMP as a second messenger for histamine-induced H+ secretion was studied in a physiologically active, in vitro preparation of piglet gastric mucosa. During the first 5--10 min of stimulation with either histamine or the cAMP phosphodiesterase inhibitor 3-isobutyl-1,4-methylxanthine (IBMX), increases (greater than or equal to 5-fold) in tissue cAMP content [(c-AMP]) were well correlated with the characteristic decrease in transepithelial resistance (R); these changes precede H+ secretion by several minutes. Control experiments indicate that, during these treatments, tissue [cAMP] is dominated by the [cAMP] of oxyntic cells alone; change in R and H+ are also related to activity of these cells alone. At the steady state (45 min), histamine and IBMX caused equivalent increases in H+ and decreases in R, but [cAMP] was markedly different in the two cases. With IBMX [cAMP] was elevated at least fivefold, whereas with histamine [cAMP] was less than or equal to 50% above resting levels. The tissue is also stimulated by exogenous additions of dibutyryl cAMP. A histamine-sensitive adenylate cyclase was present in isolated, purified oxyntic cells. The histamine sensitivity of the cyclase was very similar to that which the intact tissue exhibits for histamine-induced changes in H+ and R. The cyclase activity was blocked by cimetidine but not by promethazine. We conclude that during stimulation histamine activates a histamine (H2)-sensitive adenylate cyclase of oxyntic cells, and there is a rapid increase in cellular [cAMP] that is involved in activation of H+ transport and other associated changes of oxyntic cells. An active phosphodiesterase is responsible for reducing [cAMP] to a level much below the "peak" value. Other cellular factors (e.g. protein kinases and Ca2+-calmodulin) must also be involved in the maintenance of the stimulated state of oxyntic cells.

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Related References

Rutten, M.J.; Machen, T.E. 1981: Histamine, cyclic AmP, and activation events in piglet gastric mucosa in vitro Gastroenterology 80(5 Pt 1): 928-937
Rutten, M.J.; Machen, T.E. 1981: Histamine, cyclic Amp, and activation events in piglet gastric mucosa in vitro Gastroenterology 80(5): 928-937
Holian, O.; Ruiz, C.; Bombeck, C.T.; Nyhus, L.M. 1983: Action of histamine and 3-isobutyl-1-methylxanthine on cAMP activation of protein kinase in dog gastric mucosa Agents and Actions 13(1): 5-9
Ekblad, M.; Rutten, M.; Machen, T. 1977: Histamine cyclic amp and ion transport in piglet gastric mucosa Federation Proceedings 36(3): 455
Ekblad, E.; Machen, T.; Licko, V.R.tten, M. 1978: Histamine, cyclic AMP and the secretory response of piglet gastric mucosa Acta physiologica scandinavica: 9-80
Forte, J.G.; Forte, T.M.; Machen, T.E. 1975: Histamine-stimulated hydrogen ion secretion by in vitro piglet gastric mucosa Journal of Physiology 244(1): 15-31
Ekblad, E.B.M.; Machen, T.; Licko, V.; Rutten, M. 1977: Early increase of cyclic amp in histamine stimulated piglet gastric mucosa Upsala Journal of Medical Sciences 82(4): 265-266
Tairov, M.M.; Bersimbaev, R.I.; Salganik, R.I. 1984: Effect of prostaglandin E2, cAMP and histamine on glycoprotein synthesis in isolated cells of the rat gastric mucosa Biokhimiia 49(1): 25-31
Malinowska, D.H.; Sachs, G.; Cuppoletti, J. 1988: Gastric H+ secretion: histamine (cAMP-mediated) activation of protein phosphorylation Biochimica et Biophysica Acta 972(1): 95-109
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Ruoff, H.J.; Painz, B.; Becker, M.; Rack, M.; Sewing, K.F.; Malchow, H. 1979: Adenylate cyclase in human gastric mucosa: its activation by histamine in morphologically different biopsy specimens Klinische Wochenschrift 57(14): 725-730
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