Detection of sarin in plasma of rats after inhalation intoxication.

Presently used methods for detection and diagnosis of the severity of intoxication with organophosphorus (OP) compounds are mostly those that quantify inhibition of blood cholinesterases. It was found that when plasma inhibited with OP compounds is incubated in the presence of a high concentration of fluoride ions, the organophosphate is released from the enzyme thus yielding a phosphofluoridate, which can be analyzed by gas chromatography and NP detection. In our study, the concentration of sarin released after fluoride ions were added to the plasma of sarin-poisoned rats was determined. Sarin amounts in plasma measured after refluoridation and plasma butyrylcholinesterase activity in ten rats, that were exposed to sarin vapors at concentration of 1.25 microg/L (E1 group) and 2.5 microg/L (E2 group) respectively, for 60 min. In the E2 group the concentration of sarin in plasma was nearly 2-fold higher than in the E1 group. These results correspond well with the concentrations of sarin vapors to which the animals were exposed. Both experimental groups of animals showed significant decreases in butyrylcholinesterase activity by more than 30%-36.4% (E1 group) and 47.0% (E2 group). The method of fluoride-induced reactivation provides a very good marker for monitoring sarin intoxication in laboratory animals determined previously mostly by ChE determination which does not allow any information on sarin amounts in plasma.

Protein metabolism in guanethidine-treated rats.

The aim of the present study was to evaluate the effect of short-term adrenergic blockade on the rate of whole-body protein turnover and leucine oxidation, and on protein synthesis in specific tissues in male rats. Adrenergic blockade was induced by guanethidine (100 mg/kg body weight subcutaneously). The control group was treated with saline. On the second day, the parameters of whole-body protein and leucine metabolism were evaluated using a primed constant intravenous infusion of L-[1-(14)C]leucine. Protein synthesis in tissues was determined on the basis of L-[1-(14)C]leucine incorporation. Guanethidine treatment caused a decrease in norepinephrine in skeletal muscle. Whole-body leucine oxidation and leucine oxidized fraction were higher in guanethidine-treated rats. There was an insignificant effect of guanethidine on whole-body proteolysis, protein synthesis and leucine clearance. However, protein balance was negative due to the larger difference between protein synthesis and proteolysis in guanethidine-treated animals compared to controls. In guanethidine-treated rats, protein synthesis was higher in the gastrocnemius muscle and in the kidneys and lower in liver and spleen. Changes in the small intestine and colon were insignificant. In addition, a marked decrease in concentration of several amino acids has been observed in the liver, the kidneys and the spleen. It is concluded that adrenergic blockade induced by guanethidine is associated with significant changes in protein metabolism, leucine oxidation and amino acid concentrations in several tissues. The most important consequences of treatment are considered to be a negative effect on protein balance, increased protein turnover in skeletal muscle and kidneys and decreased protein synthesis in the liver and spleen. These changes may also be induced by administration of other sympathetic blocking agents, e.g. in treatment of hypertension.