PLoS Pathogens (Sep 2022)

Rice apoplastic CBM1-interacting protein counters blast pathogen invasion by binding conserved carbohydrate binding module 1 motif of fungal proteins.

  • Takumi Takeda,
  • Machiko Takahashi,
  • Motoki Shimizu,
  • Yu Sugihara,
  • Tetsuro Yamashita,
  • Hiromasa Saitoh,
  • Koki Fujisaki,
  • Kazuya Ishikawa,
  • Hiroe Utsushi,
  • Eiko Kanzaki,
  • Yuichi Sakamoto,
  • Akira Abe,
  • Ryohei Terauchi

DOI
https://doi.org/10.1371/journal.ppat.1010792
Journal volume & issue
Vol. 18, no. 9
p. e1010792

Abstract

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When infecting plants, fungal pathogens secrete cell wall-degrading enzymes (CWDEs) that break down cellulose and hemicellulose, the primary components of plant cell walls. Some fungal CWDEs contain a unique domain, named the carbohydrate binding module (CBM), that facilitates their access to polysaccharides. However, little is known about how plants counteract pathogen degradation of their cell walls. Here, we show that the rice cysteine-rich repeat secretion protein OsRMC binds to and inhibits xylanase MoCel10A of the blast fungus pathogen Magnaporthe oryzae, interfering with its access to the rice cell wall and degradation of rice xylan. We found binding of OsRMC to various CBM1-containing enzymes, suggesting that it has a general role in inhibiting the action of CBM1. OsRMC is localized to the apoplast, and its expression is strongly induced in leaves infected with M. oryzae. Remarkably, knockdown and overexpression of OsRMC reduced and enhanced rice defense against M. oryzae, respectively, demonstrating that inhibition of CBM1-containing fungal enzymes by OsRMC is crucial for rice defense. We also identified additional CBM-interacting proteins (CBMIPs) from Arabidopsis thaliana and Setaria italica, indicating that a wide range of plants counteract pathogens through this mechanism.