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An esterase or esterases in acetone powder preparations of mouse liver microsomes hydrolyze the cyclopropanecarboxylate ester linkage of pyrethroid insecticide chemicals derived from primary alcohols. The rate of cleavage of (+)- trans -chrysanthemates with various alcohol moieties decreases in the following order: 5-propargyl-2-furylmethyl; 5-benzyl-3-furylmethyl (bioresmethrin); 3-phenoxybenzyl; tetrahydrophthalimidomethyl esters. The hydrolysis rate of benzylfurylmethyl esters with various acid moieties decreases in the order: (+)- or (−)- trans -chrysanthemate; (+)- trans -ethanochrysanthemate; tetramethylcyclopropanecarboxylate; (+)- or (−)- cis -chrysanthemate or (+)- cis -ethanochrysanthemate. The trans -isomers of chrysanthemates and ethanochrysanthemates are hydrolyzed from 2.6- to more than 50-fold more rapidly than the corresponding cis -isomers. This enzyme system does not hydrolyze secondary alcohol esters, i.e., allethronyl (+)- trans - and (+)- cis -chrysanthemates. On intraperitoneal administration to mice, the (+)- trans -chrysanthemate and -ethanochrysanthemate of benzylfurylmethanol are of very low toxicity relative to the corresponding (+)- cis -isomers and the tetramethylcyclopropanecarboxylate. S,S,S -tributyl phosphorotrithioate (DEF) pretreatment increases the toxicity of these five compounds by 2.6- to more than 188-fold, with the exception of bioresmethrin whose toxicity is not altered. When the toxicity is increased, it is probably the result of esterase inhibition since DEF strongly inhibits the esterase activity of fresh liver microsomes while the mixed-function oxidase system remains active. The oxidase system metabolizes the chrysanthemates more rapidly than the ethanochrysanthemates of benzylfuryl-methanol. Depending upon the pyrethroid involved, the esterase or the mixed-function oxidase system, or both may be responsible for limiting the toxicity of these pyrethroids to mice. |
