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Optical Control of Insect Behavior and Receptors with Azobenzene-Bridged Fipronil and Imidacloprid.

Wen FuZhubo ShengZhi QiaoZhiping XuMeng LiYing GuanZhong LiXu-Sheng Shao
Published in: Journal of agricultural and food chemistry (2024)
Photopharmacology can be implemented in a way of regulating drug activities by light-controlling the molecular configuations. Three photochromic ligands (PCLs) that bind on one or two sites of GABARs and nAChRs were reported here. These multiphoton PCLs, including FIP-AB-FIP, IMI-AB-FIP, and IMI-AB-IMI, are constructed with an azobenzene (AB) bridge that covalently connects two fipronil (FIP) and imidacloprid (IMI) molecules. Interestingly, the three PCLs as well as FIP and IMI showed great insecticidal activities against Aedes albopictus larvae and Aphis craccivora . IMI-AB-FIP in both trans / cis isomers can be reversibly interconverted depending on light, accompanied by insecticidal activity decrease or increase by 1.5-2.3 folds. In addition, IMI-AB-FIP displayed synergistic effects against A. craccivora (LC 50, IMI-AB-FIP = 14.84-22.10 μM, LC 50, IMI-AB-IMI = 210.52-266.63 μM, LC 50, and FIP-AB-FIP = 36.25-51.04 μM), mainly resulting from a conceivable reason for simultaneous targeting on both GABARs and nAChRs. Furthermore, modulations of wiggler-swimming behaviors and cockroach neuron function were conducted and the results indirectly demonstrated the ligand-receptor interactions. In other words, real-time regulations of receptors and insect behaviors can be spatiotemporally achieved by our two-photon PCLs using light.
Keyphrases
  • aedes aegypti
  • emergency department
  • high resolution
  • single molecule
  • adverse drug
  • solid phase extraction