Interactions of intestinal mediators in the mode of action of cholera toxin

J. W. Peterson; Ying Lu; S. Duncan; J. Cantu; A. K. Chopra

doi:10.1099/00222615-41-1-3

Volume 41, Issue 1

Research Article

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Interactions of intestinal mediators in the mode of action of cholera toxin

J. W. Peterson¹, Ying Lu¹, S. Duncan¹, J. Cantu¹ and A. K. Chopra¹
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Affiliations: ¹ Department of Microbiology and Immunology, University of Texas Medical Branch, Galveston, Texas 77555-1019, USA
Published: 01 July 1994 https://doi.org/10.1099/00222615-41-1-3

Abstract

Summary

Cholera toxin (CT) and prostaglandin E2 (PGE2) increased the synthesis of 3′, 5′-cyclic adenosine monophosphate (cAMP) in rabbit intestinal mucosa, which appeared to be responsible for inducing the release of 5-hydroxytryptamine (5-HT) from enterochromaffin cells into the intestinal lumen. With isolated intestinal cells, CT induced the synthesis of PGE2 more efficiently from epithelial cells than from lamina propria cells; however, the basal amount of this eicosanoid produced by lamina propria cells was approximately six-fold more than that formed by the epithelial cells. The CT-induced stimulation of arachidonate metabolism appeared to be generalised in nature, as PGF2α and leukotrienes were synthesised in addition to PGE2. Injection of dibutyryl cAMP into the intestinal lumen in vivo markedly reduced both basal levels of PGE2, as well as CT-induced levels of PGE2, released into the luminal fluid. Similarly, when biopsy samples of tissue from rabbit intestinal loops, challenged in vivo with dibutyryl cAMP, were washed and incubated in vitro, the amount of PGE2 synthesis remained below basal levels. In contrast, when biopsy samples of normal small intestinal tissue were exposed in vitro to dibutyryl cAMP, PGE2 synthesis increased. Thus, cAMP appeared to down-regulate the levels of intestinal eicosanoids in vivo, despite its innate capacity to evoke PGE2 synthesis from mucosal tissue in vitro. Thus, the data indicate that CT-induced mediators exhibit interactive effects that alter their cellular concentrations, that in turn could affect the biological responses.

Received: 21/10/1993
Accepted: 12/12/1993
Published Online: 01/07/1994

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References

Moss J, Vaughn M. Cholera toxin and E. coli enterotoxins and their mechanisms of action. In: Hardegree MC, Tu AT. Handbook of natural toxins, vol 4, Bacterial toxins New York: Marcel Dekker Inc.; 198839–87
[Google Scholar]
Mathias JR, Clench MH. Alterations of small intestine motility by bacteria and their enterotoxins. In: Wood JD. Handbook of physiology—the gastrointestinal system (section 6) 1st edn 1 Bethesda: American Physiological Society; 19891153–1177
[Google Scholar]
Peterson JW, Jackson CA, Reitmeyer JC. Synthesis of prostaglandins in cholera toxin-treated Chinese hamster ovary cells. Microb Pathog 1990; 9:345–353
[Google Scholar]
Nilsson O, Cassuto J, Larsson P-A. et al. 5-hydroxytryptamine and cholera secretion: a histochemical and physiological study in cats. Gut 1983; 24:542–548
[Google Scholar]
Eklund S, Cassuto J, Jodal M, Lundgren O. The involvement of the enteric nervous system in the intestinal secretion evoked by cyclic adenosine 3′,5′-monophosphate. Acta Physiol Scand 1984; 120:311–316
[Google Scholar]
Beubler E, Bukhave K, Rask-Madsen J. Significance of calcium for the prostaglandin E₂-mediated secretory response to 5-hydroxytryptamine in the small intestine of the rat in vivo. Gastroenterology 1986; 90:1972–1977
[Google Scholar]
Beubler E, Horina G. 5-HT₂ and 5-HT₃ receptor subtypes mediate cholera toxin-induced intestinal fluid secretion in the rat. Gastroenterology 1990; 99:83–89
[Google Scholar]
Sjöqvist A, Cassuto J, Jodal M, Lundgren O. Actions of serotonin antagonists on cholera-toxin-induced intestinal fluid secretion. Acta Physiol Scand 1992; 145:229–237
[Google Scholar]
De SN, Chatterje DN. An experimental study of the mechanism of action of Vibrio cholerae on the intestinal mucous membrane. J Pathol Bacteriol 1953; 66:559–562
[Google Scholar]
Peterson JW, Molina NC, Houston CW, Fader RC. Elevated cAMP in intestinal epithelial cells during experimental cholera and salmonellosis. Toxicon 1983; 21:761–775
[Google Scholar]
Peterson JW, Ochoa L. Role of prostaglandins and cAMP in the secretory effects of cholera toxin. Science 1989; 245:857–859
[Google Scholar]
Chapin DS, Lookingland KJ, Moore KE. Effects of LC mobile phase composition on retention times for biogenic amines, and their precursors and metabolites. Current Separations 1986; 7:68–70
[Google Scholar]
Weiser MM. Intestinal epithelial cell surface membrane glycoprotein synthesis. J Biol Chem 1973; 248:2536–2541
[Google Scholar]
Triadafilopoulos G, Pothoulakis C, Weiss R, Giampaolo C, LaMont JT. Comparative study of Clostridium difficile toxin A and cholera toxin in rabbit ileum. Gastroenterology 1989; 97:1186–1192
[Google Scholar]
Burch RM, Jelsema C, Axelrod J. Cholera toxin and pertussis toxin stimulate prostaglandin E₂ synthesis in a murine macrophage cell line. J Pharmacol Exp Ther 1988; 244:765–773
[Google Scholar]
Cassuto J, Jodal M, Tuttle R, Lundgren O. 5-hydroxytryptamine and cholera secretion: physiological and pharmacological studies in cats and rats. Scand J Gastroenterol 1982; 17:695–703
[Google Scholar]
Eklund S, Brunsson I, Jodal M, Lundgren O. Changes in cyclic 3′,5′-adenosine monophosphate tissue concentration and net fluid transport in the cat’s small intestine elicited by cholera toxin, arachidonic acid, vasoactive intestinal polypeptide and 5-hydroxytryptamine. Acta Physiol Scand 1987; 129:115–125
[Google Scholar]
Sjöqvist A, Cassuto J, Jodal M, Brunsson I, Lundgren O. The effect on intestinal fluid transport of exposing the serosa to hydrochloric acid. A study of mechanisms. Acta Physiol Scand 1982; 116:447–454
[Google Scholar]
Van Loon FPL, Rabbani GH, Bukhave K, Rask-Madsen J. Indomethacin decreases jejunal fluid secretion in addition to luminal release of prostaglandin E₂ in patients with acute cholera. Gut 1992; 33:643–645
[Google Scholar]

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Interactions of intestinal mediators in the mode of action of cholera toxin

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Volume 41, Issue 1

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Interactions of intestinal mediators in the mode of action of cholera toxin

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