Increased fecal pellet output that occurs during cold-restraint stress (CRS) was evaluated systematically. Free-feeding rats, which exhibit a reduced occurrence of gastric ulcers under these conditions, were studied. CRS significantly increased fecal pellet production and fluid content. However, the fecal output produced during CRS was not associated with increased gut secretory activity or somatic motor activity associated with cold restraint and did not occur in anesthetized animals. Cold and restraint stress were additive in producing increased fecal output. Significant dose-related decreases in fecal output were produced by drugs that decrease gut transit (i.e., B-HT 920, clonidine, Lomotil, loperamide, and lidamidine). Anticholinergic-antisecretory drugs, antidepressants, and tranquilizers had little effect on fecal output or fluid content. Changes in gastrointestinal transit did not contribute to the increased fecal output during CRS. Transit in the lower small intestine was not altered, but the cecum tended to empty more contents into the large intestine during CRS. Colonic transit was dramatically affected by CRS, which eliminated retrograde transit and produced the evacuation of the majority of colonic contents. The increased colonic transit produced by CRS was decreased in a dose-related fashion by hexamethonium, nifedipine, loperamide, and B-HT 920. In several time-response and drug-inhibition studies during CRS, both fecal pellet output and colonic transit were affected similarly. These data indicate that CRS appears to change central nervous system output to the colon and that it alters colonic smooth muscle motility in a manner that facilitates colonic transit and evacuation. Small intestinal transit is not involved in this phenomenon and is regulated differently during CRS.
Experiments were conducted to determine whether relaxation of the opossum isolated lower esophageal sphincter (LES), induced by electrical field stimulation (EFS) or various pharmacological agents, is associated with changes in cyclic nucleotide content. EFS relaxed the LES in a frequency-dependent manner with 0.7 Hz producing half-maximal relaxation. Control tissues and tissues stimulated at various frequencies were clamp-frozen and assayed for cyclic nucleotide content. EFS had no effect on adenosine 3',5'-cyclic monophosphate (cAMP) content but increased guanosine 3',5'-cyclic monophosphate (cGMP) content in a frequency-dependent manner. Tetrodotoxin eliminated both the relaxation and cGMP accumulation in response to EFS. Vasoactive intestinal polypeptide (VIP) relaxed the LES with an EC50 of 0.1 microM. In contrast to the results with EFS, VIP enhanced cAMP content but had no effect on cGMP content. Relaxation of the LES produced by sodium nitroprusside or atriopeptin II was accompanied by an increase in cGMP accumulation, whereas isoproterenol- and dopamine-induced relaxation was accompanied by an increase in cAMP content. The data indicate that, depending on the stimulus, increases in either cAMP or cGMP content can accompany LES relaxation. These results are consistent with the proposed role of cyclic nucleotides as second messengers mediating LES relaxation.
Serotonin is localized in the enterochromaffin cells of the gastrointestinal mucosa and within neurons in the enteric nervous system. It can be released into the blood or into the lumen of the gut. Serotonin inhibits gastric acid secretion and may be an endogenous enterogastrone. It appears to stimulate the production and release of gastric and colonic mucus. When placed on the serosal surface of the rabbit ileum in vitro, serotonin increases short-circuit current and inhibits the mucosal-to-serosal flux of NaCl. Serotonin potentially is involved in the pathogenesis of diarrhea due to amoebae or cholera. As an enteric neurotransmitter, serotonin affects neural modulation of gut smooth muscle function and may act either directly on mesenteric vascular smooth muscle or through enteric nerves to influence gastrointestinal blood flow. Thus, since serotonin may be involved in multiple physiological processes of digestion, this report reviews and summarizes the role of this ubiquitous substance in the major functions of the gastrointestinal system. Q 1985 society for Experimental Biology and Medicine.
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