Design, Synthesis, and Antifungal/Antioomycete Activity of Thiohydantoin Analogues Containing Spirocyclic Butenolide.
Yihao LiTingting ZhangHaoyun MaLeichuan XuQian ZhangLei HeJiazhen JiangZhenhua ZhangZhangwu ZhaoMingan WangPublished in: Journal of agricultural and food chemistry (2023)
Novel fungicidal agents were designed based on the combination of two privileged scaffolds, thiohydantoin and spirocyclic butenolide, which are widely found in natural products. The synthesized compounds were characterized by 1 H NMR, 13 C NMR, and high-resolution electrospray ionisation mass spectrometry. The in vitro antioomycete activity evaluation showed that most of the compounds exhibited excellent inhibitory activities against different developmental stages in the life cycle of pathogenic oomycete Phytophthora capsici . Compound 5j could inhibit the mycelial growth, sporangium production, zoospore release, and cystospore germination significantly with EC 50 values of 0.38, 0.25, 0.11, and 0.026 μg/mL, respectively. The in vivo antifungal/antioomycete bioassay results revealed that the series of compounds generally showed outstanding control efficacies against the pathogenic oomycete Pseudoperonospora cubensis, and compounds 5j , 5l , 7j , 7k , and 7l possessed broad-spectrum antifungal activities against the test phytopathogens. The in vivo protective and curative efficacies against P. capsici of the representative compound 5j were excellent, which were better than those of azoxystrobin. More prominently, 5j significantly promoted the biomass accumulation of the root system and reinforced the cell wall by callose deposition. The pronounced upregulation of immune response-related genes indicated that the active oomycete inhibitor 5j also functioned as a plant elicitor. Transmission electron microscopy observation and the enzyme activity test demonstrated that the mechanism of action of 5j was to bind to the pivotal protein, complex III on the respiratory chain, which resulted in a shortage of energy supply. Molecular docking results exhibited that compound 5j appropriately matched with the Qo pocket and had no interaction with the most commonly mutated site Gly-142, which may be of significant benefit in Qo fungicide resistance management. Compound 5j showed great advantages and potential in oomycete control, resistance management, and induction of disease resistance. A further investigation of 5j with a unique structure might have direct implications for the creation of novel oomycete inhibitors against plant-pathogenic oomycetes.
Keyphrases
- molecular docking
- high resolution
- mass spectrometry
- cell wall
- candida albicans
- immune response
- life cycle
- liquid chromatography
- magnetic resonance
- electron microscopy
- molecular dynamics simulations
- solid state
- cell proliferation
- signaling pathway
- dendritic cells
- gas chromatography
- single cell
- rectal cancer
- inflammatory response
- capillary electrophoresis
- prognostic factors
- wastewater treatment
- small molecule
- binding protein