Oxidative metabolism of carbon disulphide by the rat. Effect of treatments which modify the liver toxicity of carbon disulphide

The liver toxicity of a standard dose of CS₂ was increased by phenobarbitone pre-treatment and by fasting and decreased by prior administration of a small dose of CS₂; it was less marked in female than in male rats.Rats were given an intraperitoneal dose of ¹⁴CS₂ to study its in vivo conversion to ¹⁴CO₂ under conditions which modify the liver toxicity of CS₂. The radioactive CO₂ exhaled was found to be linearly related to the amount of cytochrome P-450 present in the liver at the time of administering ¹⁴CS₂; it was also found to be related to the severity of the toxic changes caused in the liver, but here the relationship was not linear and was more complex.When liver microsomes were incubated with CS₂, a marked loss of cytochrome P-450 was observed only when NADPH was present. In contrast with the loss of the cytochrome observed with NADPH alone, which is associated with the formation of malonaldehyde, that due to CS₂ still occurred in the presence of EDTA, even though the formation of malonaldehyde was largely prevented.These results are compatible with the hypothesis that CS₂ requires metabolism for its liver toxicity.