Latika Naik scite author profile

To determine whether prostaglandin exerts a direct action on individual gastric epithelial cells that protects them from ethanol-induced injury, dispersed chief cells from guinea pig stomach were pretreated with 16,16-dimethyl-prostaglandin E2 (dmPGE2) or placebo before incubation with ethanol or control. Cell injury was assessed in terms of exclusion of Fast Green dye, release of lactate dehydrogenase, alterations of ultrastructure, and pepsinogen secretion stimulated by a variety of secretagogues. Of chief cells 60 +/- 2% were stained by Fast Green if incubated with 10% ethanol for 1 h after pretreatment with placebo, whereas only 38 +/- 1% of cells showed Fast Green staining when pretreated with 2.6 microM dmPGE2 before ethanol exposure. Similarly, 63 +/- 2% of cellular lactate dehydrogenase was released from chief cells pretreated with placebo compared with 36 +/- 4% of lactate dehydrogenase released from cells pretreated with 2.6 microM dmPGE2 (P less than 0.01). The prostaglandin's protective effect persisted throughout a 6-h incubation with ethanol. Scanning and transmission electron micrographs demonstrated disintegration of chief cells pretreated with placebo before ethanol exposure, whereas ultrastructural architecture was relatively preserved among chief cells pretreated with dmPGE2. Preincubation with 8 or 10% ethanol inhibited the subsequent stimulation of pepsinogen secretion caused by carbachol, cholecystokinin, A23187, 12-O-tetradecanoylphorbol 13-acetate, forskolin, or 8-bromoadenosine 3',5'-cyclic monophosphate. Pretreatment with dmPGE2 did not reduce the ethanol-induced inhibition of secretion stimulated by any of these secretagogues. These data indicate that dmPGE2 significantly reduces ethanol-induced damage to dispersed chief cells in terms of alterations of membrane permeability and ultrastructure but does not prevent the ethanol-induced impairment of pepsinogen secretion. These findings provide evidence that dmPGE2 exerts a direct but limited protective action on the gastric chief cell, independent of vascular, paracrine, or neural actions.

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Cholecystokinin-induced desensitization of pepsinogen secretion from chief cells

Cherner

Naik

Singh

1989

American Journal of Physiology-Gastrointestinal and Liver Physi

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When dispersed chief cells from guinea pig stomach were first incubated with cholecystokinin (CCK), washed, and then reincubated with CCK in fresh incubation solution, the stimulation of pepsinogen secretion and the rise in intracellular calcium concentration during the second incubation were reduced. CCK did not cause residual enzyme secretion but caused desensitization that was rapid, temperature dependent, dependent on extracellular calcium, reversible with time, and prevented but not reversed by CCK receptor antagonists. Cholecystokinin octapeptide (CCK-8) caused desensitization over the same range of concentrations that stimulate pepsinogen secretion, whereas the concentration of gastrin required to cause maximal desensitization was greater than that required to cause maximal stimulation of enzyme secretion. CCK-8 caused heterologous desensitization of pepsinogen secretion stimulated by agonists that interact with receptors to cause mobilization of cellular calcium and activation of protein kinase C or by agonists that bypass receptors to activate these mediators directly; however, CCK-8 did not induce desensitization of the stimulation caused by any secretagogue whose actions are mediated by adenosine 3',5'-cyclic monophosphate. Because CCK-8 caused greater desensitization of secretion stimulated by agonists that interact with receptors than by agonists that bypass receptors, it is likely that receptor modulation as well as a postreceptor action contribute to the ability of CCK to cause desensitization of pepsinogen secretion from chief cells.

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Abstracts of the sixth international conference on experimental ulcer

et al. 1988

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Latika Naik

Atrial natriuretic factor activates membrane-bound guanylate cyclase of chief cells

Ability of prostaglandin to reduce ethanol injury to dispersed chief cells from guinea pig stomach

Cholecystokinin-induced desensitization of pepsinogen secretion from chief cells

Abstracts of the sixth international conference on experimental ulcer

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