Doxorubicin inhibits phosphatidylserine decarboxylase and confers broad‐spectrum antifungal activity

生物 生物化学 格里斯麦格纳波特 生物合成 微生物学 基因 水稻
作者
Yaru Zhou,Juan Zhao,Lei Yang,Ruiqing Bi,Ziting Qin,Peng Sun,Renjian Li,Mengfei Zhao,Yin Wang,Guang Chen,Hu Wan,Lu Zheng,Xiao‐Lin Chen,Guanghui Wang,Qiang Li,Guotian Li
出处
期刊:New Phytologist [Wiley]
卷期号:239 (1): 255-270
标识
DOI:10.1111/nph.18944
摘要

As phospholipids of cell membranes, phosphatidylethanolamine (PE) and phosphatidylserine (PS) play crucial roles in glycerophospholipid metabolism. Broadly, some phospholipid biosynthesis enzymes serve as potential fungicide targets. Therefore, revealing the functions and mechanism of PE biosynthesis in plant pathogens would provide potential targets for crop disease control. We performed analyses including phenotypic characterizations, lipidomics, enzyme activity, site-directed mutagenesis, and chemical inhibition assays to study the function of PS decarboxylase-encoding gene MoPSD2 in rice blast fungus Magnaporthe oryzae. The Mopsd2 mutant was defective in development, lipid metabolism, and plant infection. The PS level increased while PE decreased in Mopsd2, consistent with the enzyme activity. Furthermore, chemical doxorubicin inhibited the enzyme activity of MoPsd2 and showed antifungal activity against 10 phytopathogenic fungi including M. oryzae and reduced disease severity of two crop diseases in the field. Three predicted doxorubicin-interacting residues are important for MoPsd2 functions. Our study demonstrates that MoPsd2 is involved in de novo PE biosynthesis and contributes to the development and plant infection of M. oryzae and that doxorubicin shows broad-spectrum antifungal activity as a fungicide candidate. The study also implicates that bacterium Streptomyces peucetius, which biosynthesizes doxorubicin, could be potentially used as an eco-friendly biocontrol agent.

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