Attempts were made to promote or inhibit nitric oxide (. N = O) synthesis in a murine model of hepatic damage (Corynebacterium parvum followed by lipopolysaccharide; LPS) to determine the role of . N = O in the liver injury. Moderate hepatic damage and increases in circulating NO2-/NO3- levels were detectable after C. parvum alone. Administration of LPS to these mice resulted in severe hepatic damage and acute elevations in circulating nitrogen oxide levels. L-arg had no influence on the C. parvum or LPS-induced changes. NG-monomethyl-L-arginine (NMA) had no effect in the absence of LPS, but when given with LPS, a dose-dependent suppression in plasma NO2-/NO3- levels and an increase in liver injury were seen. The NMA-induced changes were partially reversed by the simultaneous administration of L-arg. These findings suggest a protective role for . N = O in this model.