Medical Toxicology Commons^™

We report a simple and rapid procedure for estimating the aqueous half-lives of the reactive metabolites of pyrrolizidine alkaloids that are responsible for toxicity. The metabolites (dehydroalkaloids; DHAs) were rapidly added to a 0.5 mM HEPES solution, pH 8.0. The subsequent fall in pH, due to ester hydrolysis, was followed potentiometrically. The change in pH was well described by single-component exponential decay, allowing the derivation of rate constants and half-lives of hydrolysis. Half-lives varied from 0.31 sec for dehydro-7-acetyllycopsamine to 5.36 sec for dehydrotrichodesmine. The results support the view that alkaloids whose DHA metabolites have longer half-lives produce greater extrahepatic …

Monocrotaline and trichodesmine are structurally closely related pyrrolizidine alkaloids (PAs) exhibiting different extrahepatic toxicities, trichodesmine being neurotoxic (LD(50) 57 mu mol/kg) and monocrotaline pneumotoxic (LD(50) 335 mu mol/kg). We have compared certain physicochemical properties and metabolic activities of these two PAs in order to understand the quantitative and qualitative differences in toxicity. Both PAs were metabolized in the isolated, perfused rat liver to highly reactive pyrrolic dehydroalkaloids that appear to be responsible for the toxicity of PAs. More dehydrotrichodesmine (468 nmol/g liver) than dehydromonocrotaline (116 nmol/g liver) was released from liver into perfusate on perfusion for 1 hr with 0.5 …