Microorganisms, Vol. 14, Pages 395: Early-Stage Growth Restriction of Hymenoscyphus fraxineus on Tolerant Fraxinus excelsior Is Associated with Constitutive Chemical Defenses
Microorganisms doi: 10.3390/microorganisms14020395
Authors:
Akira Hattori
Shunsuke Masuo
Yasuhiro Ishiga
Yutaka Tamai
Yuichi Yamaoka
Izumi Okane
Hymenoscyphus fraxineus is the causal agent of ash dieback, a devastating disease of European ash (Fraxinus excelsior). Although the pathogen is believed to have originated in East Asia and has been confirmed in Japan, European ash trees cultivated in the Sapporo Experimental Forest of Hokkaido University remain asymptomatic despite the presence of H. fraxineus. In this study, we investigated the early infection behavior of H. fraxineus and associated host defense responses by comparing asymptomatic F. excelsior with the susceptible control species F. angustifolia. Leaflets were inoculated with ascospores, and fungal development as well as host responses were examined microscopically during early infection stages. In addition, we analyzed the accumulation of selected coumarins, which have been proposed as candidate compounds associated with ash dieback tolerance, and assessed their effects on ascospore germination. We found that fungal growth was consistently restricted on F. excelsior at 7 days post inoculation, particularly at the stage of invasion into adjacent epidermal cells. Fraxetin was detected in F. excelsior leaflets but not in F. angustifolia, and fraxetin treatment significantly reduced ascospore germination in vitro. While typical markers of induced resistance were not clearly detected at the examined time points, these results indicate that constitutive chemical traits, including fraxetin accumulation, may contribute to early-stage suppression of H. fraxineus growth in F. excelsior. Together, our findings provide insight into early host–pathogen interactions associated with ash dieback tolerance and highlight the potential role of constitutive defenses during initial infection.
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Akira Hattori www.mdpi.com
