Haloacetate analogs of pheromones: Effects on catabolism and electrophysiology inPlutella xylostella

Abstract

A series of mono-, di-, and trihalogenated acetate analogs of Zl 1–16: Ac were prepared and examined for electrophysiological activity in antennae of males of the diamondback moth,Plutella xylostella. In addition, two potential affinity labels, a diazoacetate (Dza) and a trifluoromethyl ketone (Tfp), were evaluated for EAG activity. The Z11–16∶Ac showed the highest activity in EAG assays, followed by the fluorinated acetates, but other halo-acetates were essentially inactive. The polar diazoacetate and the trifluoromethyl ketone were also very weak EAG stimulants. The effects of these analogs on the hydrolysis of [³H]Z11–16∶Ac to [³H]Z11–16∶OH by antennal esterases was also examined. The three fluorinated acetates showed the greatest activity as inhibitors in competition assays, with rank order F₂Ac > F³Ac > FAc > Ac > Cl₂Ac > ClAc > Dza > Br₂Ac > BrAc > Tfp > I > Cl₃Ac > Br₃Ac > OH. The relative polarities of the haloacetates, as determined by TLC mobility, are in the order mono- > di- > trihalo, but F, Cl, Br, and I all confer similar polarities within a substitution group. Thus, the steric size appears to be the predominant parameter affecting the interactions of the haloacetate analogs with both receptor and catabolic proteins inP. xylostella males.