The high potency of ME-5343 to aphids is due to a unique mechanism of action.

摘要

ME-5343 (afidopyropen) is a new and promising insecticide with an unknown mechanism of action that is effective against sucking insects. ME-5343 was highly toxic to pea aphids (Acyrthosiphon pisum), being more toxic than six other widely used insecticides. In contrast, ME-5343 was practically non-toxic to eight other species of insects we tested. ME-5343 was not toxic to German cockroaches (topical application) or American cockroaches (injection), suggesting that lack of toxicity in these species is not due to lack of cuticular penetration. House flies are insensitive to ME-5343 by topical, residual and feeding exposure. Addition of synergists did not change this result, suggesting that insensitivity to ME-5343 in house flies is not due to rapid detoxification nor is it dependent on the method of bioassay used. ME-5343 did not cause firefly lanterns to glow, nor did it prevent the octopamine stimulated lantern glow. Extracellular recordings of action potentials from a tonically active motor nerve of crayfish in situ showed no effects of ME-5343 at concentrations up to 10-5 M. These results suggest that the target site of ME-5343 is not the voltage gated sodium channel, voltage gated potassium channel, GABA gated chloride channel, nicotinic acetylcholine receptor, acetylcholinesterase, octopamine receptor or glutamate receptor. ME-5343 injected into crayfish caused flextion of the legs and tail, similar to the symptoms induced by 5-HT (serotonin). We evaluated the effect of ME-5343 on 5-HT2-like receptors with intracellular recordings of excitatory post-synaptic potentials from the peripheral neuromuscular junction of the crayfish and found no effect of ME-5343. Thus, ME-5343 was neither an agonist nor antagonist of 5-HT2 receptors, did not affect neurotransmitter release and did not affect glutamate receptors. We conclude that ME-5343 is highly toxic to aphids and that this is due to a unique, and currently undefined mechanism of action.