Cross resistance to juvenile hormone analogues in insecticide-resistant strains of Musca domestica L

Five juvenile hormone analogues (JHAs) were tested by topical application to prepupae of a susceptible (S) and 8 insecticide-resistant (R) strains of the housefly. Activity was measured by the inability to completely emerge from the puparium. Aitosid (isopropyl 11-methoxy-3,7,1l-trimethyldodeca-2,4-dienoate) was the most active compound against the S strain (ED₅₀ 0.0033 μg/prepupa) followed by Ro 7-9767 6,7-epoxy-3,7-diethyl-(3,4-(methylenedioxy)phenoxy)-2-cis/trans-octene], R-20458 trans l-(4-ethylphenoxy)-6,7-epoxy-3,7-dimethyl-2-octene], sesamex, and NIA 23509 (10,11 -epoxy-N-ethyl-3,7,11-trimethyI-2,6-dodecadienamide). The R strains, designated by the name of the selecting insecticide, have been under pressure for over 10 years and are considered maximally resistant. The dimethoate-R and OMS-15-R (carbamate-resistant) strains exhibited high levels of cross resistance to all JHAs often exceeding 100x at the ED₉₅ The fenthion-R strain showed high cross resistance toward all JHAs except Altosid, toward which it manifested an intermediate level (17.5x). The DDT/lindane-R demonstrated only negligible tolerance to Aitosid but an intermediate response to all the other JHAs. The OMS-12-R strain (phosphoramidothioate-R) exhibited intermediate to high levels of cross resistance toward all JHAs, whereas the parathion-R, Chlorthion-R and a multi-resistant field-collected strain showed only low to intermediate levels of cross resistance. On the basis of known degradative mechanisms of the OMS-15-R strain, mixed function oxidases apparently play an important role in deactivating JHAs.