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New Insecticide Modes of Action: Whence Selectivity?

New Insecticide Modes of Action: Whence Selectivity?. Joel Coats Professor of Entomology and Toxicology Iowa State University Ames, Iowa. Outline. Selectivity New Insecticide Classes Neonictinoids Fipronil Chlorphenapyr Sulfluramid Spinosads Buprofezin Diafenthiauron Indoxacarb

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New Insecticide Modes of Action: Whence Selectivity?

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  1. New Insecticide Modes of Action:Whence Selectivity? Joel Coats Professor of Entomology and Toxicology Iowa State University Ames, Iowa

  2. Outline • Selectivity • New Insecticide Classes • Neonictinoids • Fipronil • Chlorphenapyr • Sulfluramid • Spinosads • Buprofezin • Diafenthiauron • Indoxacarb • Metaflumazone • Pymetrozine

  3. Where have we been?

  4. Where are we now, and where are we headed?

  5. Neonicotinoids

  6. Imidacloprid • Mode of Action • Binds irreversibly to postsynaptic nicotinic acetlycholine receptors.

  7. Neonicotinoid: Acetylcholine Agonist nerve axon Neo ACH Neo ACH NERVE SYNAPSE

  8. NeonicotinoidsThiamethoxam • Control wide range of sucking / chewing pests like aphids, thrips, termites, weevils, beetles, wireworms, fire ants

  9. Neonicotinoids--Thiamethoxam • Toxicity to non-targets • Rat oral LD50 a.i. = 1,563 mg/kg • Rat dermal LD50 a.i. >2,000 mg/kg • Water solubility = 4,100 mg/L

  10. Fipronil

  11. Phenyl-pyrazole family fipronil - primary family member in production fipronil - Regent Fipronil

  12. Fipronil Mode of Action • Acts as an inhibitor at the -aminobutyric acid (GABA) receptor as a noncompetitive blocker of the GABA-gated chloride channel (similar to lindane and cyclodienes) • Chemical and biological activation producing equally toxic and sometime more persistent metabolites with same mode of action

  13. Nerve Axon Cl- Cl- Cl- Cl- K+ Na+ Cl- GABA-gated Chloride Channel

  14. Fipronil Mode of Action Cl- Fipr Cl- Cl- K+ Na+ Cl- Antagonist at GABA-gated Chloride Channel

  15. Selective Toxicity of Fipronil Insect Acute Housefly Contact LD50 = 0.13 mg/kg Vertebrate Acute Mouse Oral LD50 = 41 mg/kg

  16. Chlorfenapyr

  17. Chlorfenapyr • American Cyanamid product, now BASF • Registered outside U.S. for cotton • Broad-spectrum insecticidal action Chlorfenapyr, AC-303,630

  18. Chlorfenapyr Oxidative Phosphorylation Chemiosmotic theory Electron flow through the electron transport chain is accompanied by a transfer of protons ATP synthesis driven by proton-motive force Electron transport train uses O2 as final electron receptor

  19. Sulfluramid

  20. Spinosads New class of potent natural insecticides

  21. Spinosads • Mode of action – acts on the acetylcholine receptor to make it more excitable Overstimulation of the nerve results. • Hypothesis currently considered most plausible, although not really accepted as the last word

  22. Acetylcholine Receptor - Spinosads nerve axon Spyn ACH ACH ACH ACH NERVE SYNAPSE

  23. Buprofezin

  24. Buprofezin – Mode of Action • Inhibits chitin synthesis/deposition • Effect similar to benzoyl phenylureas • Insects die when newly molted • IGR

  25. Diafenthiuron

  26. Diafenthiuron- Mode of Action • Inhibits ATPase in mitochondria • Blocks utilization of energy (ATP) • Thiourea compound

  27. Indoxacarb

  28. Indoxacarb – Mode of Action • Blocks sodium channel in nerve axon • Inhibits propagation of nerve potential • Oxadiazine compound

  29. Indoxacarb effect on nerve axon Na+ Indox Cl- Cl- K+ Cl- Nerve Potential Propagation

  30. Metaflumizone

  31. Metaflumizone • Putative mode of action – blocks sodium channel in nerves • Log P 4.7-5.4

  32. Pymetrozine

  33. Pymetrozine – Mode of Action • Inhibits feeding of sucking insects • Especially active on aphids • Pyridine azomethine compound

  34. Conclusions • A number of very new classes of insecticides have been developed, with new modes of action. • Availability of products is changing, toward newer classes of insecticides. • Selectivity is ever more important: to applicators, to livestock, pets, wildlife, environment, residues in food.

  35. Conclusions • Some of the new chemistry perpetuates non-selective insecticide toxicity. • Some of it allows opportunities for safer, more selective insecticides.

  36. Questions • How many and which modes of action should be screened for in non-target bioassays? High throughput assays? • Can we predict which species will be most vulnerable and under what exposure (conc., timing)?

  37. The First McKim Conference: Some Important Questions • Best bioassays? • Specificity and selectivity? • Extrapolation? • Metabolic detoxification or activation?

  38. “If you’re not part of the solution…you’re part of the precipitate.”- Anon (C&EN)

  39. Getting answers depends on the quality of “the hired help.”

  40. Steve Bradbury, circa 1984

  41. Partof Jim McKim’s rich legacy

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