Decreased nerve sensitivity and decreased cuticular penetration as mechanisms of resistance to pyrethroids in a (1 R)- trans-permethrin-selected strain of the house fly

Abstract

A fenthion-resistant strain of the house fly ( Musca domestica L.) was selected with bioresmethrin resulting in ca. 90-fold resistance to the selecting agent. This strain was subsequently selected with (1 R)- trans-permethrin producing ca. 140-fold resistance to this latter insecticide. The permethrin-resistant (147-R) strain was highly cross-resistant to several other pyrethroids and demonstrated resistance to knockdown by these insecticides as well as by DDT. The sensitivity of the central nervous system to four pyrethroids was investigated. The 147-R strain was 2.6-fold less sensitive to (1 R)- trans-ethanoresmethrin than the susceptible (NAIDM-S) strain, and >43-fold and >67-fold less sensitive to (1 R,S)- cis, trans-tetramethrin and (1 R)- trans-permethrin, respectively. It also displayed decreased penetration of (1 R,S)- trans-[ 14C]permethrin when compared to the NAIDM-S strain. Lower nerve sensitivity and decreased cuticular penetration are potential mechanisms of resistance to pyrethroids in house flies in the United States.