A Working Hypothesis for Urecholine Effects on Histamine Stimulation of Gastric Secretion

Relations among cAMP, cGMP, acid production [measured by the intraglandular accumulation of [14C]aminopyrine (AP)], and prostaglandin E2 (PGE2) activity were studied in isolated glands from rabbit fundic mucosa. AP, cAMP, and cGMP responses to histamine, PGE2, and 3-isobutyl-1-methylxanthine (IMX) were compared with controls. Histamine and PGE2 significantly increased glandular cAMP levels twofold, and histamine and IMX stimulated AP uptake two- to fourfold. PGE2 significantly inhibited both histamine- and IMX-stimulated AP accumulation, but it did not alter basal AP uptake. PGE2 also decreased histamine-stimulated cAMP production but only at a low concentration (10(-7) M). This dose of PGE2 was near to the endogenous PGE2 content found in unstimulated glands (10(-8) M). Intraglandular cGMP levels in unstimulated glands (10(-8) M). Intraglandular cGMP levels were increased by IMX but not by PGE2 or histamine. It is concluded that histamine stimulation of acid secretion is mediated by cAMP, that secretory and biochemical responses to histamine are modulated by PGE2 because PGE2 antagonized histamine-stimulated cAMP and AP uptake, and that the rise in cAMP induced solely by PGE2 appears to be localized within nonparietal cells because PGE2 alone did not stimulate AP accumulation.

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Gastric Secretion Following Vagosplanchnic Nerve Anastomosis

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1956.184.2.418 ◽

1956 ◽

Vol 184 (2) ◽

pp. 418-427 ◽

Cited By ~ 2

Author(s):

Anthony M. Imparato ◽

L. Corsan Reid ◽

J. William Hinton

Keyword(s):

Electrical Stimulation ◽

Gastric Secretion ◽

Functional Relationship ◽

Early Postoperative Period ◽

Insulin Hypoglycemia ◽

Splanchnic Nerves ◽

Nerve Anastomosis ◽

Nerve Anastomoses ◽

Secretory Apparatus ◽

Stimulation Of

Gastric secretion in response to insulin hypoglycemia and electrical stimulation of the vagus was studied in 18 dogs who had bilateral vagosplanchnic anastomoses in the chest. In six dogs the pattern of gastric secretory response to insulin changed from negative in the early postoperative period to positive between 85 and 613 days postanastomosis. In two, apparent return of vagus function was confirmed by electrical stimulation of the vagi. One of five dogs in whom splanchnovagal nerve anastomoses were performed showed a return of response to insulin at 63 days which was abolished by excision of the anastomoses. On the basis of a review of some of the ideas regarding interpretation of cross nerve anastomoses and some of the conflicting opinions regarding the fiber content of the sympathetic splanchnic nerves, the authors conclude the most likely explanation for the observed phenomena is that there are preganglionic cholinergic fibers in the greater splanchnic nerves whose relationship to the gastric secretory apparatus is similar to that of cholinergic fibers in the vagus. The regenerating fibers of the vagus followed the sheaths of these degenerating fibers and re-established functional relationship with the gastric secretory apparatus.

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