Acetaminophen Directly Protects Human Gastric Epithelial Cell Monolayers against Damage Induced by Sodium Taurocholate

The goal of this study was to observe if nitecapone protected against taurocholate-induced damage in primary cultured rat gastric mucosal cells, as well as in a well-differentiated human gastric epithelial cell line (MKN 28). Prostaglandins were measured to analyze the protection mechanism. In primary rat gastric mucosal cell culture, nitecapone 125-250 microM protected the cells significantly against damage induced by sodium taurocholate, increasing cell viability by 31-38%. In the human gastric epithelial cell line, in which mitochondrial activity was measured as an indication of cell viability, nitecapone (62.5-250 microM) protected the cells against sodium taurocholate-induced damage by 12-20%. Prostaglandin E2, thromboxane B2, and 6-keto-prostaglandin F1 alpha measurements in the primary cultured rat gastric mucosal cells showed that nitecapone (125 microM and 250 microM) significantly stimulated prostaglandin E2 production (84.7% and 61.0%, respectively), and inhibited thromboxane B2 formation (50% at 250 microM), while the 6-keto-prostaglandin F1 alpha formation was unaffected. Nitecapone had no effect on prostaglandin E2 production in the MKN 28 epithelial cell line. Indomethacin or aspirin, at concentrations that did not affect cell viability, antagonized the stimulative effect of nitecapone on prostaglandin E2 formation in the primary cultured rat gastric mucosal cells. Although the prostaglandin E2 synthesis was blocked, nitecapone still protected against cell damage induced by taurocholate. These results demonstrated the direct and efficacious protection of nitecapone on gastric cell level and suggest that the "cytoprotection" by nitecapone against taurocholate may not be mediated through the mechanism of stimulated synthesis of prostaglandin E2.

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Histamine H2-receptor antagonists stimulate proliferation but not migration of human gastric mucosal cellsin vitro

Ciacci

Zarrilli

Ricci

et al. 1996

Digest Dis Sci

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Gastric mucosal cell migration and proliferation are crucial events in the repair of gastric mucosal erosions. This study was designed to test the hypothesis that the H2 blockers roxatidine and ranitidine might stimulate migration and proliferation of gastric mucous cells derived from a human well-differentiated gastric adenocarcinoma cell line (MKN 28 cells) in vitro, in conditions independent of systemic factors and of acid inhibition. Confluent monolayers of MKN 28 cells were wounded with a razor blade and were then incubated with roxatidine or ranitidine. The number of cells migrating to the damaged area was determined 24 hr later. Cell proliferation was assessed by means of [3H] thymidine uptake and cell counts after incubation with roxatidine or ranitidine. Neither H2 antagonist significantly stimulated cell migration. On the other hand, cell proliferation was dose-dependently and significantly enhanced by incubation with roxatidine and ranitidine. Exogenous administration of TGF-alpha significantly stimulated MKN 28 cell division. However, incubation with roxatidine or ranitidine did not increase the steady-state mRNA expression of TGF-alpha or EGFR as assessed by northern blot analysis. Based on these in vitro findings, we postulate that the ulcer healing effect of these H2 antagonists in vivo might be due in part to stimulation of gastric mucosal cell proliferation.

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Acetaminophen Directly Protects Human Gastric Epithelial Cell Monolayers against Damage Induced by Sodium Taurocholate

Cited by 5 publications

References 28 publications

Gastrointestinal Epithelial Barrier to Acid: Studies with Isolated Membrane Vesicles and Cultured Epithelial Cells

Gastrointestinal Epithelial Barrier to Acid: Studies with Isolated Membrane Vesicles and Cultured Epithelial Cells

Protection by nitecapone against sodium taurocholate-induced damage to cultured gastric cells

Histamine H2-receptor antagonists stimulate proliferation but not migration of human gastric mucosal cellsin vitro

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