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- Title
Azoles activate type I and type II programmed cell death pathways in crop pathogenic fungi.
- Authors
Schuster, Martin; Kilaru, Sreedhar; Steinberg, Gero
- Abstract
Triazoles are widely used to control pathogenic fungi. They inhibit the ergosterol biosynthetic pathway, but the precise mechanisms leading to fungicidal activities in many fungal pathogens are poorly understood. Here, we elucidate the mode of action of epoxiconazole and metconazole in the wheat pathogen Zymoseptoria tritici and the rice blast fungus Magnaporthe oryzae. We show that both azoles have fungicidal activity and reduce fluidity, but not integrity, of the plasma membrane. This impairs localisation of Cdc15-like F-BAR proteins, resulting in defective actin ring assembly and incomplete septation. However, mutant studies and pharmacological experiments in vitro and in planta show that azole lethality is due to a combination of reactive oxygen species-induced apoptosis and macroautophagy. Simultaneous inhibition of both programmed cell death pathways abolishes azole-induced cell death. Other classes of ergosterol biosynthesis inhibitors also induce apoptosis and macroautophagy, suggesting that activation of these two cell death pathways is a hallmark of ergosterol synthesis-targeting fungicides. This knowledge will inform future crop protection strategies. Antifungal azoles inhibit ergosterol biosynthesis, but how that leads to fungistatic or fungicidal activities in many pathogenic fungi is poorly understood. Here, Schuster, Kilaru & Steinberg show that azole lethality in the plant pathogens Zymoseptoria tritici and Magnaporthe oryzae is due to a combination of reactive oxygen species-induced apoptosis and macroautophagy.
- Subjects
APOPTOSIS; PATHOGENIC fungi; FUNGICIDE resistance; RICE blast disease; AZOLES; PYRICULARIA oryzae; PHYTOPATHOGENIC microorganisms
- Publication
Nature Communications, 2024, Vol 15, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-024-48157-9