Shen Qing, Liang Meiling, Yang Fan, Deng Yi Zhen, Naqvi Naweed I
Temasek Life Sciences Laboratory, and Department of Biological Sciences, National University of Singapore, 1 Research Link, Singapore, 117604, Republic of Singapore.
Integrative Microbiology Research Centre, Guangdong Province Key Laboratory of Microbial Signals and Disease Control, State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, South China Agricultural University, Guangzhou, 510642, China.
New Phytol. 2020 Sep;227(6):1831-1846. doi: 10.1111/nph.16636. Epub 2020 Jun 9.
Ferroptosis, an iron-dependent cell death process, was found to occur in Magnaporthe oryzae, and plays a key role in infection-related development therein. Ferroptosis in the rice-blast fungus was confirmed based on five basic criteria. We confirmed the dependence of ferroptosis on ferric ions, and optimized ratio-fluorescence imaging of C11-BODIPY as a precise sensor for lipid peroxides that mediate ferroptosis in M. oryzae. We uncovered an important regulatory function for reduced glutathione and NADPH oxidases in modulating the superoxide moieties required for ferroptotic cell death. We found ferroptosis to be necessary for the developmental cell death of conidia during appressorium maturation in rice blast. Such ferroptotic cell death initiated first in the terminal cell and progressed sequentially to the entire conidium. Iron chelation or chemical inhibition of ferroptosis caused conidial cells to remain viable, and led to strong defects in host invasion by M. oryzae. Ferroptosis induction exclusively in the host severely constrained the invasive growth of M. oryzae. We found inter-reliant and independent roles for ferroptosis and autophagy in controlling such precise cell death in M. oryzae during pathogenic differentiation. Our study provides significant molecular insights into the role of developmental cell death and iron homeostasis in fungal pathogenesis.
铁死亡是一种铁依赖性细胞死亡过程,已发现其在稻瘟病菌中发生,并在其中与感染相关的发育过程中起关键作用。基于五个基本标准证实了稻瘟病菌中的铁死亡。我们证实了铁死亡对铁离子的依赖性,并优化了C11-硼二吡咯的比率荧光成像,作为介导稻瘟病菌铁死亡的脂质过氧化物的精确传感器。我们发现还原型谷胱甘肽和NADPH氧化酶在调节铁死亡细胞死亡所需的超氧化物部分方面具有重要的调节功能。我们发现铁死亡对于稻瘟病附着胞成熟过程中分生孢子的发育性细胞死亡是必要的。这种铁死亡细胞死亡首先在末端细胞中启动,然后依次发展到整个分生孢子。铁螯合或铁死亡的化学抑制导致分生孢子细胞保持存活,并导致稻瘟病菌对宿主的入侵出现严重缺陷。仅在宿主中诱导铁死亡严重限制了稻瘟病菌的侵入性生长。我们发现在致病分化过程中,铁死亡和自噬在控制稻瘟病菌这种精确的细胞死亡中具有相互依赖和独立的作用。我们的研究为发育性细胞死亡和铁稳态在真菌致病中的作用提供了重要的分子见解。
