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Literature DB >> 19171904

Apoplastic effectors secreted by two unrelated eukaryotic plant pathogens target the tomato defense protease Rcr3.

Jing Song¹, Joe Win, Miaoying Tian, Sebastian Schornack, Farnusch Kaschani, Muhammad Ilyas, Renier A L van der Hoorn, Sophien Kamoun.

Abstract

Current models of plant-pathogen interactions stipulate that pathogens secrete effector proteins that disable plant defense components known as virulence targets. Occasionally, the perturbations caused by these effectors trigger innate immunity via plant disease resistance proteins as described by the "guard hypothesis." This model is nicely illustrated by the interaction between the fungal plant pathogen Cladosporium fulvum and tomato. C. fulvum secretes a protease inhibitor Avr2 that targets the tomato cysteine protease Rcr3(pim). In plants that carry the resistance protein Cf2, Rcr3(pim) is required for resistance to C. fulvum strains expressing Avr2, thus fulfilling one of the predictions of the guard hypothesis. Another prediction of the guard hypothesis has not yet been tested. Considering that virulence targets are important components of defense, different effectors from unrelated pathogens are expected to evolve to disable the same host target. In this study we confirm this prediction using a different pathogen of tomato, the oomycete Phytophthora infestans that is distantly related to fungi such as C. fulvum. This pathogen secretes an array of protease inhibitors including EPIC1 and EPIC2B that inhibit tomato cysteine proteases. Here we show that, similar to Avr2, EPIC1 and EPIC2B bind and inhibit Rcr3(pim). However, unlike Avr2, EPIC1 and EPIC2B do not trigger hypersensitive cell death or defenses on Cf-2/Rcr3(pim) tomato. We also found that the rcr3-3 mutant of tomato that carries a premature stop codon in the Rcr3 gene exhibits enhanced susceptibility to P. infestans, suggesting a role for Rcr3(pim) in defense. In conclusion, our findings fulfill a key prediction of the guard hypothesis and suggest that the effectors Avr2, EPIC1, and EPIC2B secreted by two unrelated pathogens of tomato target the same defense protease Rcr3(pim). In contrast to C. fulvum, P. infestans appears to have evolved stealthy effectors that carry inhibitory activity without triggering plant innate immunity.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2009 PMID： 19171904 PMCID： PMC2635833 DOI： 10.1073/pnas.0809201106

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

32 in total

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Authors: M S Dixon; C Golstein; C M Thomas; E A van Der Biezen; J D Jones
Journal: Proc Natl Acad Sci U S A Date: 2000-08-01 Impact factor: 11.205

Review 2. Plant pathogens and integrated defence responses to infection.

Authors: J L Dangl; J D Jones
Journal: Nature Date: 2001-06-14 Impact factor: 49.962

3. Small molecule affinity fingerprinting. A tool for enzyme family subclassification, target identification, and inhibitor design.

Authors: Doron C Greenbaum; William D Arnold; Felice Lu; Linda Hayrapetian; Amos Baruch; Jennifer Krumrine; Samuel Toba; Kareem Chehade; Dieter Brömme; Irwin D Kuntz; Matthew Bogyo
Journal: Chem Biol Date: 2002-10

4. From Guard to Decoy: a new model for perception of plant pathogen effectors.

Authors: Renier A L van der Hoorn; Sophien Kamoun
Journal: Plant Cell Date: 2008-08-22 Impact factor: 11.277

5. RIN4 interacts with Pseudomonas syringae type III effector molecules and is required for RPM1-mediated resistance in Arabidopsis.

Authors: David Mackey; Ben F Holt; Aaron Wiig; Jeffery L Dangl
Journal: Cell Date: 2002-03-22 Impact factor: 41.582

6. A tomato cysteine protease required for Cf-2-dependent disease resistance and suppression of autonecrosis.

Authors: Julia Krüger; Colwyn M Thomas; Catherine Golstein; Mark S Dixon; Matthew Smoker; Saijun Tang; Lonneke Mulder; Jonathan D G Jones
Journal: Science Date: 2002-04-26 Impact factor: 47.728

7. An enhanced transient expression system in plants based on suppression of gene silencing by the p19 protein of tomato bushy stunt virus.

Authors: Olivier Voinnet; Susana Rivas; Pere Mestre; David Baulcombe
Journal: Plant J Date: 2003-03 Impact factor: 6.417

8. High throughput virus-induced gene silencing implicates heat shock protein 90 in plant disease resistance.

Authors: Rui Lu; Isabelle Malcuit; Peter Moffett; Maria T Ruiz; Jack Peart; Ai-Jiuan Wu; John P Rathjen; Abdelhafid Bendahmane; Louise Day; David C Baulcombe
Journal: EMBO J Date: 2003-11-03 Impact factor: 11.598

9. EST mining and functional expression assays identify extracellular effector proteins from the plant pathogen Phytophthora.

Authors: Trudy A Torto; Shuang Li; Allison Styer; Edgar Huitema; Antonino Testa; Neil A R Gow; Pieter van West; Sophien Kamoun
Journal: Genome Res Date: 2003-07 Impact factor: 9.043

10. Physical interaction between RRS1-R, a protein conferring resistance to bacterial wilt, and PopP2, a type III effector targeted to the plant nucleus.

Authors: Laurent Deslandes; Jocelyne Olivier; Nemo Peeters; Dong Xin Feng; Manirath Khounlotham; Christian Boucher; Imre Somssich; Stephane Genin; Yves Marco
Journal: Proc Natl Acad Sci U S A Date: 2003-06-03 Impact factor: 11.205

80 in total

1. Phytophthora infestans effector AVRblb2 prevents secretion of a plant immune protease at the haustorial interface.

Authors: Tolga O Bozkurt; Sebastian Schornack; Joe Win; Takayuki Shindo; Muhammad Ilyas; Ricardo Oliva; Liliana M Cano; Alexandra M E Jones; Edgar Huitema; Renier A L van der Hoorn; Sophien Kamoun
Journal: Proc Natl Acad Sci U S A Date: 2011-12-05 Impact factor: 11.205

2. Subclassification and biochemical analysis of plant papain-like cysteine proteases displays subfamily-specific characteristics.

Authors: Kerstin H Richau; Farnusch Kaschani; Martijn Verdoes; Twinkal C Pansuriya; Sherry Niessen; Kurt Stüber; Tom Colby; Hermen S Overkleeft; Matthew Bogyo; Renier A L Van der Hoorn
Journal: Plant Physiol Date: 2012-02-27 Impact factor: 8.340

3. Affinity of Avr2 for tomato cysteine protease Rcr3 correlates with the Avr2-triggered Cf-2-mediated hypersensitive response.

Authors: John W Van't Klooster; Marc W Van der Kamp; Jacques Vervoort; Jules Beekwilder; Sjef Boeren; Matthieu H A J Joosten; Bart P H J Thomma; Pierre J G M De Wit
Journal: Mol Plant Pathol Date: 2011-01 Impact factor: 5.663

4. The haustorial transcriptomes of Uromyces appendiculatus and Phakopsora pachyrhizi and their candidate effector families.

Authors: Tobias I Link; Patrick Lang; Brian E Scheffler; Mary V Duke; Michelle A Graham; Bret Cooper; Mark L Tucker; Martijn van de Mortel; Ralf T Voegele; Kurt Mendgen; Thomas J Baum; Steven A Whitham
Journal: Mol Plant Pathol Date: 2013-12-17 Impact factor: 5.663

Review 5. Filamentous plant pathogen effectors in action.

Authors: Martha C Giraldo; Barbara Valent
Journal: Nat Rev Microbiol Date: 2013-11 Impact factor: 60.633

Review 6. Plant-Pathogen Effectors: Cellular Probes Interfering with Plant Defenses in Spatial and Temporal Manners.

Authors: Tania Y Toruño; Ioannis Stergiopoulos; Gitta Coaker
Journal: Annu Rev Phytopathol Date: 2016-01-17 Impact factor: 13.078

7. Subfamily-Specific Fluorescent Probes for Cysteine Proteases Display Dynamic Protease Activities during Seed Germination.

Authors: Haibin Lu; Balakumaran Chandrasekar; Julian Oeljeklaus; Johana C Misas-Villamil; Zheming Wang; Takayuki Shindo; Matthew Bogyo; Markus Kaiser; Renier A L van der Hoorn
Journal: Plant Physiol Date: 2015-06-05 Impact factor: 8.340