Lipophilic ammonia is toxic gas and can easily diffuse across cell membranes. Excess ammonia is implicated in the pathogenesis of several metabolic disorders including hepatic encephalopathy and may result in the death. The purpose of this study was to clarify the inhibition effect of metronidazole on liver cell damage due to ammonia in human Hep G2 cell and rat hepatocytes. The effects of metronidazole were studied in ammonium chloride treated human Hep G2 cell (75 mM) and rat hepatocyte (100 mM) following $0.1{mu}M$ metronidazole treatment. In MTZ+AC group, cell viabilities increased prominently and LDH activities decreased over 25% than AC group. Furthermore, ammonia level according to ammonium chloride treatment reduced over 30% and lipid peroxidation as an index of cell membrane damage decreased more than twice. By comparison with control, catalase activity showed more than 30% reduction in AC group while less than 10% reduction in MTZ+AC group, respectively. In addition, MTZ+AC group showed the similar cell structure as control in cell morphology study by using light microscope, and represented fluorescent intensity decrement compared with AC group in fluorescent microscopic study with avidin-TRITC fluorescent dye. And cleaved PARP expression due to ammonia reduced twofold or more in MTZ+AC group. As the results suggest, metronidazole may protect the liver cell by inhibiting cell damages due to ammonia and be used for an effective antagonist of ammonia in hyperammonemia.