L-cysteine Prevents Stomach Exposure to Carcinogenic Acetaldehyde

Overview

Atrophic gastritis with hypochlorhydric milieu is a risk factor for gastric cancer. Microbes colonizing the acid-free stomach oxidize ethanol into acetaldehyde, a group 1 carcinogen. The aim is to assess gastric production of acetaldehyde and its inert condensation product, non-toxic 4-methyltiazolidine-2-carboxylic acid (MTCA), after alcohol intake under treatment with slow-release L-cysteine or placebo. Patients with biopsy-confirmed atrophic gastritis, low serum pepsinogen and high gastrin-17 are studied. On separate days, patients will be randomly assigned to receive 200 mg slow-release L-cysteine or placebo, then have intragastric instillation of 15% (0.3 g/kg) ethanol. After intake, gastric concentrations of acetaldehyde, ethanol, L-cysteine and MTCA are analysed for 4 hours. Expected results show mitigated exposure of the gastric mucosa to acetaldehyde.

Gastric infection with Helicobacter pylori induces chronic active gastritis which over the years develop atrophic gastritis with a hypochlorhydric milieu which is a risk factor for gastric cancer. Microbes colonizing acid-free stomach oxidize ethanol into acetaldehyde, considered a group 1 carcinogen. The aim of the study is to assess the gastric production of acetaldehyde and its inert condensation product, non-toxic 4-methyltiazolidine-2-carboxylic acid (MTCA), after alcohol intake under treatment with slow-release L-cysteine. Identical placebo tablets will be used for comparison. Patients with biopsy-confirmed atrophic gastritis, low serum pepsinogen and high gastrin-17 will be studied with case-control design. All subjects will be their own control. On separate days, patients are randomly assigned to receive 200 mg slow-release L-cysteine or placebo, then have intragastric instillation of 15% (0.3 g/kg) ethanol (corresponding to two glasses of wine). After intake, gastric sampling of fluid for a period of four hours is done and concentrations of acetaldehyde, ethanol, L-cysteine and MTCA are analysed. L-cysteine is expected to decrease gastric acetaldehyde concentrations and increase the MTCA level. Gastric L-cysteine and MTCA concentrations are expected to be maintained over the study period. With placebo, acetaldehyde is expected to be elevated along with ethanol concentrations. Based on these assumptions slow-release L-cysteine binds acetaldehyde to form inactive MTCA, which remains in gastric juice resulting in reduced local exposure of the gastric mucosa to carcinogenic acetaldehyde.