The introduction of insecticides and fungicides in agriculture has improved crop yields and, consequently, the quality of life for many people, especially in what is widely considered as the 'first world'. However, the indiscriminate use of dangerous chemical insecticides has led to pest resistance, human and animal poisoning and environmental pollution. Biochemical and genetic evidence concludes that the non-reducing disaccharide trehalose plays an essential role in the pathobiology of many insects and fungi. Both organisms share identical pathway for trehalose biosynthesis (the TPS/TPP pathway), while a high degree of homology in their trehalose hydrolysis capacity (trehalase activities) has also been demonstrated. In the search for new, effective and environmentally sustainable compounds, a set of trehalase inhibitors has emerged as a potentially interesting antifungal and insecticidal target. In particular, the trehalose analogue, Validamycin A, which has a strong inhibitory effect on several trehalases, has been successfully introduced for the treatment of various diseases caused by insects and fungi. Herein, we review the main features of the specific interaction between Validamycin A and trehalase as well as the expected advantages of the applications based on trehalase inhibition as insecticides and fungicides. © 2021 Society of Chemical Industry.
Keywords: fungicide; insecticide; trehalase inhibitors; trehalose; validamycin A.
© 2021 Society of Chemical Industry.