Genome-Wide Analysis of AGC Kinases Reveals that MoFpk1 Is Required for Development, Lipid Metabolism, and Autophagy in Hyperosmotic Stress of the Rice Blast Fungus Magnaporthe oryzae
文献类型: 外文期刊
作者: Wu, Ming-Hua 1 ; Yu, Qin 1 ; Tao, Tian-Yi 1 ; Sun, Li-Xiao 1 ; Qian, Hui 1 ; Zhu, Xue-Ming 2 ; Li, Lin 2 ; Liang, Shuang 2 ; Lu, Jian-Ping 3 ; Lin, Fu-Cheng 1 ; Liu, Xiao-Hong 1 ;
作者机构: 1.Zhejiang Univ, Inst Biotechnol, State Key Lab Managing Biot & Chem Treats Qual &, Hangzhou, Zhejiang, Peoples R China
2.Zhejiang Acad Agr Sci, Inst Plant Protect & Microbiol, State Key Lab Managing Biot & Chem Treats Qual &, Hangzhou, Zhejiang, Peoples R China
3.Zhejiang Univ, Coll Life Sci, Hangzhou, Zhejiang, Peoples R China
关键词: Magnaporthe oryzae; AGC kinases; MoFpk1; lipid metabolism; autophagy
期刊名称:MBIO ( 影响因子:7.786; 五年影响因子:8.483 )
ISSN: 2150-7511
年卷期:
页码:
收录情况: SCI
摘要: During eukaryotic evolution, the TOR-AGC kinase signaling module is involved in the coordinated regulation of cell growth and survival. However, the AGC kinases in plant-pathogenic fungi remain poorly understood. In this study, we have identified 20 members of the AGC family of protein kinases. Evolutionary and biological studies have revealed that AGC kinases are highly conserved and involved in the growth (8 genes), conidiation (13 genes), conidial germination (9 genes), appressorium formation (9 genes), and pathogenicity (5 genes) of Magnaporthe oryzae, in which a subfamily protein of the AGC kinases, MoFpk1, the activator of flippase, specifically exhibited diverse roles. Two kinase sites were screened and found to be critical for MoFpk1: 230K and 326D. Moreover, MoFpk1 is involved in cell wall integrity through the negative regulation of MoMps1 phosphorylation. The deletion of MoFpk1 resulted in defective phosphatidylacetamide (PE) and phosphatidylserine (PS) turnover and a series of lipid metabolism disorders. Under hyperosmotic stress, since the Delta Mofpk1 mutant is unable to maintain membrane asymmetry, MoYpk1 phosphorylation and MoTor activity were downregulated, thus enhancing autophagy. Our results provide insights into the evolutionary and biological relationships of AGC kinases and new insight into plasma membrane (PM) homeostasis, i.e., responses to membrane stress and autophagy through lipid asymmetry maintenance. IMPORTANCE Our identification and analysis of evolutionary and biological relationships provide us with an unprecedented high-resolution view of the flexible and conserved roles of the AGC family in the topmost fungal pathogens that infect rice, wheat, barley, and millet. Guided by these insights, an AGC member, MoFpk1, was found to be indispensable for M. oryzae development. Our study defined a novel mechanism of plasma membrane homeostasis, i.e., adaptation to stress through the asymmetric distribution of phospholipids. Furthermore, defects in the asymmetric distribution of phospholipids in the membrane enhanced autophagy under hyperosmotic stress. This study provides a new mechanism for the internal linkage between lipid metabolism and autophagy, which may help new fungicide target development for controlling this devastating disease.
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