Abstract
The effective control of insect pests is based on the use of insecticides. Most of these compounds act on molecular targets in the insect nervous system. However, the largescale deployment of insecticide treatment has led to the development of resistance, which decreases insecticide efficacy. Although the resistance mechanisms are largely studied today, this review aims to point out new insights on the less-known cellular and molecular factors involved in the modulation of the sensitivity of the targets to insecticides. This review will focus on the phosphorylation/dephosphorylation process, the post-transcriptional events such as editing and alternative splicing and the influence of the association with auxiliary proteins of the receptors and/or ion channels targeted by insecticides. In addition, the involvement of calcium-dependent signaling pathways in the modulation of the sensitivity of the target to insecticides will also be considered and discussed. Finally, this review will insist on different strategies proposed to optimize the efficacy of insecticide treatment while reducing doses to decrease side effects on environment and on non-target organisms by combining two different chemical insecticides or a given active ingredient associated with biological and/or chemical synergistic agents. This review is part of the special issue "Insecticide Mode of Action: From Insect to Mammalian Toxicity".
Keywords: Insect nervous system, insecticide targets, auxiliary subunits, chemical mixtures, phosphorylation, alternative splicing, editing, intracellular signaling pathways.
Current Medicinal Chemistry
Title:Influence of Cellular and Molecular Factors on Membrane Target Sensitivity to Insecticides
Volume: 24 Issue: 27
Author(s): Valérie Raymond*, Delphine Goven, Yassine Benzidane, Olivier List and Bruno Lapied
Affiliation:
- Laboratoire Signalisation Fonctionnelle des Canaux Ioniques et Ré cepteurs (SiFCIR), UPRES-EA2647 USC INRA 1330, SFR 4207 QUASAV, UFR Sciences, Université Bretagne Loire, Univ. Angers, 2 Bld Lavoisier, 49045 Angers Cedex 01,France
Keywords: Insect nervous system, insecticide targets, auxiliary subunits, chemical mixtures, phosphorylation, alternative splicing, editing, intracellular signaling pathways.
Abstract: The effective control of insect pests is based on the use of insecticides. Most of these compounds act on molecular targets in the insect nervous system. However, the largescale deployment of insecticide treatment has led to the development of resistance, which decreases insecticide efficacy. Although the resistance mechanisms are largely studied today, this review aims to point out new insights on the less-known cellular and molecular factors involved in the modulation of the sensitivity of the targets to insecticides. This review will focus on the phosphorylation/dephosphorylation process, the post-transcriptional events such as editing and alternative splicing and the influence of the association with auxiliary proteins of the receptors and/or ion channels targeted by insecticides. In addition, the involvement of calcium-dependent signaling pathways in the modulation of the sensitivity of the target to insecticides will also be considered and discussed. Finally, this review will insist on different strategies proposed to optimize the efficacy of insecticide treatment while reducing doses to decrease side effects on environment and on non-target organisms by combining two different chemical insecticides or a given active ingredient associated with biological and/or chemical synergistic agents. This review is part of the special issue "Insecticide Mode of Action: From Insect to Mammalian Toxicity".
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Cite this article as:
Raymond Valérie*, Goven Delphine, Benzidane Yassine , List Olivier and Lapied Bruno , Influence of Cellular and Molecular Factors on Membrane Target Sensitivity to Insecticides, Current Medicinal Chemistry 2017; 24 (27) . https://dx.doi.org/10.2174/0929867324666170316111315
DOI https://dx.doi.org/10.2174/0929867324666170316111315 |
Print ISSN 0929-8673 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-533X |
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