Bacterial cyclodipeptides elicit Arabidopsis thaliana immune responses reducing the pathogenic effects of Pseudomonas aeruginosa PAO1 strains on plant development

Bacterial cyclodipeptides elicit Arabidopsis thaliana immune responses reducing the pathogenic effects of Pseudomonas aeruginosa PAO1 strains on plant development

Plants being sessile organisms are exposed to various biotic and abiotic factors, thus causing stress. The Pseudomonas aeruginosa bacterium is an opportunistic pathogen for animals, insects, and plants. Direct exposure of Arabidopsis thaliana to the P. aeruginosa PAO1 strain induces plant death by p...

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Published in:Journal of plant physiology Vol. 275; p. 153738
Main Authors: Solis-Ortiz, Cristhian Said, Gonzalez-Bernal, Javier, Kido-Díaz, Héctor Antonio, Peña-Uribe, Cesar Artuto, López-Bucio, Jesús Salvador, López-Bucio, José, Guevara-García, Ángel Arturo, García-Pineda, Ernesto, Villegas, Javier, Campos-García, Jesús, Reyes de La Cruz, Homero
Format: Journal Article
Language:English
Published: Germany Elsevier GmbH 01-08-2022
Elsevier Science Ltd
Subjects:
Abiotic factors
Arabidopsis
Arabidopsis thaliana
Bacteria
Cyclodipeptides
Defense mechanisms
Exposure
Immune response
Immune system
Insects
Jasmonic acid
Kinases
Liquid oxygen
MAP kinases
Opportunist infection
Pathogenesis
Pathogens
Plant bacterial diseases
Plant growth
Plant immunity
Plant-pathogen interactions
Protein kinase
Proteins
Pseudomonas aeruginosa
Quorum sensing
Rapamycin
Salicylic acid
Seedlings
Sessile species
Signal transduction
Signaling
Strains (organisms)
TOR protein
Virulence
Virulence factors
TOR protein
Cyclodipeptides
Immune response
Plant-pathogen interactions
MAP kinases
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Summary:Plants being sessile organisms are exposed to various biotic and abiotic factors, thus causing stress. The Pseudomonas aeruginosa bacterium is an opportunistic pathogen for animals, insects, and plants. Direct exposure of Arabidopsis thaliana to the P. aeruginosa PAO1 strain induces plant death by producing a wide variety of virulence factors, which are regulated mainly by quorum sensing systems. Besides virulence factors, P. aeruginosa PAO1 also produces cyclodipeptides (CDPs), which possess auxin-like activity and promote plant growth through activation of the target of the rapamycin (AtTOR) pathway. On the other hand, plant defense mechanisms are regulated through the production of phytohormones, such as salicylic acid (SA) and jasmonic acid (JA), which are induced in response to pathogen-associated molecular patterns (PAMPs), activating defense genes associated with SA and JA such as PATHOGENESIS-RELATED-1 (PR-1) and LIPOXYGENASE2 (LOX2), respectively. PR proteins are suggested to play critical roles in coordinating the Systemic Acquired Resistance (SAR). In contrast, LOX proteins (LOX2, LOX3, and LOX4) have been associated with the production of JA by producing its precursors, oxylipins. The activation of defense mechanisms involves signaling cascades such as Mitogen-Activated Protein Kinases (MAPKs) or the TOR pathway as a switch for re-directing energy towards defense or growth. In this work, we challenged A. thaliana (wild type, mpk6 or mpk3 mutants, and overexpressing TOR) seedlings with P. aeruginosa PAO1 strains to identify the role of bacterial CDPs in the plant immune response. Results showed that the pre-exposure of these Arabidopsis seedlings to CDPs significantly reduced plant infection of the pathogenic P. aeruginosa PAO1 strains, indicating that plants that over-express AtTOR or lack MPK3/MPK6 protein-kinases are more susceptible to the pathogenic effects. In addition, CDPs induced the GUS activity only in the LOX2::GUS plants, indicative of JA-signaling activation. Our findings indicate that the CDPs are molecules that trigger SA-independent and JA-dependent defense responses in A. thaliana; hence, bacterial CDPs may be considered elicitors of the Arabidopsis immune response to pathogens.
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ISSN:0176-1617
1618-1328
DOI:10.1016/j.jplph.2022.153738