Cytochrome P(450)-based resistance mechanism and pyrethroid resistance in the field Anopheles albimanus resistance management trial

The relative rates of cytochrome P(450) selection in southern Mexican Anopheles albimanus populations were investigated during a 3 years indoor residual house spraying intervention with a pyrethroid (PYR) or DDT, a mosaic of organophosphate (OP)-PYR, and the annual rotation of OP-PYR-carbamate (CARB). This insecticide resistance mechanism, initially evenly spread in the mosquito population, correlated with PYR resistance during the second treated year, when cytochrome P(450) contents increased in most villages of the PYR, rotation and mosaic schemes. However, by the third year, mean cytochrome P(450) contents declined to susceptible levels in mosquitoes of the rotation and one mosaic group but not in the PYR-treated villages. In DDT-treated villages, a continuous decrement of cytochrome P(450) levels occurred since the first treatment year, and susceptible levels were observed at the end of the intervention. Most correlations of cytochrome P(450) levels and PYR resistance were lost during the third year, indicating that another mechanism evolved in resistant mosquito populations.