Abstract
The possible intragastric nitrosation of ranitidine to genotoxic derivatives has been investigated in rats and mice given, by gavage, high single doses of this histamine H2 receptor antagonist along with NaNO2. Liver DNA fragmentation, as revealed in rats by both DNA alkaline elution and DNA alkaline denaturation followed by hydroxylapatite chromatography, was found to be dependent either on the molar ratio drug/nitrite or on the gastric pH. It occurred only with doses of 175 mg/kg ranitidine HCl + 80 mg/kg NaNO2 (molar ratio 1:2.32) or 350 mg/kg ranitidine HCl + 80 mg/kg NaNO2 (molar ratio 1:1.16) and concurrent reduction of gastric pH from 5.5 to 2-3 (produced by prolonged fasting). A further reduction of pH elicited by histamine injection increased the amount of DNA damage. DNA fragmentation in gastric mucosa showed a similar dependence on both pH and ranitidine/NaNO2 ratio, but was more marked than in liver. Simultaneous administration of ascorbic acid reduced the damage of gastric DNA. Oral administration of 175 mg/kg ranitidine HCl + 80 mg/kg NaNO2 in fasted and histamine-injected mice induced a modest but statistically significant increase in the frequency of sister chromatid exchanges in bone marrow cells.
Published Version
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