Gildas Bourdais scite author profile

Reactive oxygen species (ROS) are potent signal molecules rapidly generated in response to stress. Detection of pathogenassociated molecular patterns induces a transient apoplastic ROS through the function of the NADPH respiratory burst oxidase homologs D (RbohD). However, little is known about the regulation of pathogen-associated molecular pattern-elicited ROS or its role in plant immunity. We investigated ROS production triggered by bacterial flagellin (flg22) in Arabidopsis (Arabidopsis thaliana). The oxidative burst was diminished in ethylene-insensitive mutants. Flagellin Sensitive2 (FLS2) accumulation was reduced in etr1 and ein2, indicating a requirement of ethylene signaling for FLS2 expression. Multiplication of virulent bacteria was enhanced in Arabidopsis lines displaying altered ROS production at early but not late stages of infection, suggesting an impairment of preinvasive immunity. Stomatal closure, a mechanism used to reduce bacterial entry into plant tissues, was abolished in etr1, ein2, and rbohD mutants. These results point to the importance of flg22-triggered ROS at an early stage of the plant immune response.

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PAMP (Pathogen-associated Molecular Pattern)-induced Changes in Plasma Membrane Compartmentalization Reveal Novel Components of Plant Immunity

Keinath

Kierszniowska

Lorek

et al. 2010

Journal of Biological Chemistry

280

252

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Plasma membrane compartmentalization spatiotemporally regulates cell-autonomous immune signaling in animal cells. To elucidate immediate early protein dynamics at the plant plasma membrane in response to the bacterial pathogen-associated molecular pattern (PAMP) flagellin (flg22) we employed quantitative mass spectrometric analysis on detergent-resistant membranes (DRMs) of Arabidopsis thaliana suspension cells. This approach revealed rapid and profound changes in DRM protein composition following PAMP treatment, prominently affecting proton ATPases and receptor-like kinases, including the flagellin receptor FLS2. We employed reverse genetics to address a potential contribution of a subset of these proteins in flg22-triggered cellular responses. Mutants of three candidates (DET3, AHA1, FER) exhibited a conspicuous defect in the PAMP-triggered accumulation of reactive oxygen species. In addition, these mutants showed altered mitogen-activated protein kinase (MAPK) activation, a defect in PAMP-triggered stomatal closure as well as altered bacterial infection phenotypes, which revealed three novel players in elicitor-dependent oxidative burst control and innate immunity. Our data provide evidence for dynamic elicitor-induced changes in the membrane compartmentalization of PAMP signaling components.To cope with the great number of potential pathogens, plants evolved specialized pattern recognition receptors (PRRs) 5 through which they detect pathogen-associated molecular patterns (PAMPs) at the cell surface (1). Within seconds to minutes after PAMP perception manifold intracellular responses occur, including ion fluxes across the plasma membrane (PM), increase of cytosolic Ca 2ϩ levels, production of reactive oxygen species (ROS) and protein phosphorylation. At later time points profound transcriptional changes, stomatal closure as well as local cell wall reinforcement take place (2).The best characterized plant PAMP perception system is the recognition of bacterial flagellin and its elicitor-active epitope, flg22, by the Arabidopsis PRR FLS2 (flagellin sensitive 2; (2)). FLS2 undergoes flg22-induced complex formation with BRl1-associated receptor kinase 1 (BAK1), which precedes and is required for FLS2 endocytosis (2, 3). Indeed, ligand-induced reduction in lateral membrane mobility of FLS2 has been observed in protoplasts (4), which could be explained by either ligand-dependent interactions of FLS2 with e.g. BAK1, the confinement of FLS2 to less mobile membrane compartments, or a combination of both. To ensure adequate perception of PAMPs and tightly regulated downstream signaling, the PM must be spatially highly organized and dynamic. In this context, the recruitment of FLS2 to specialized membrane domains seems crucial to enable ligand-induced endocytosis (5).During the past years, lateral compartmentalization has become a well-recognized topic in plant membrane research (6). The membrane raft hypothesis provides a plausible explanation for the spatial and temporal organization of biological membranes based on t...

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Clathrin-dependent endocytosis is required for immunity mediated by pattern recognition receptor kinases

Mbengue

Bourdais

Gervasi

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

181

213

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Sensing of potential pathogenic bacteria is of critical importance for immunity. In plants, this involves plasma membrane-resident pattern recognition receptors, one of which is the FLAGELLIN SENSING 2 (FLS2) receptor kinase. Ligand-activated FLS2 receptors are internalized into endosomes. However, the extent to which these spatiotemporal dynamics are generally present among pattern recognition receptors (PRRs) and their regulation remain elusive. Using live-cell imaging, we show that at least three other receptor kinases associated with plant immunity, PEP RECEPTOR 1/2 (PEPR1/2) and EF-TU RECEPTOR (EFR), internalize in a ligand-specific manner. In all cases, endocytosis requires the coreceptor BRI1-ASSOCIATED KINASE 1 (BAK1), and thus depends on receptor activation status. We also show the internalization of liganded FLS2, suggesting the transport of signaling competent receptors. Trafficking of activated PRRs requires clathrin and converges onto the same endosomal vesicles that are also shared with the hormone receptor BRASSINOSTERIOD INSENSITIVE 1 (BRI1). Importantly, clathrin-dependent endocytosis participates in plant defense against bacterial infection involving FLS2-mediated stomatal closure and callose deposition, but is uncoupled from activation of the flagellin-induced oxidative burst and MAP kinase signaling. In conclusion, immunity mediated by pattern recognition receptors depends on clathrin, a critical component for the endocytosis of signaling competent receptors into a common endosomal pathway.pattern-triggered immunity | clathrin | FLS2 | PEPR1 | EFR

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Large-Scale Phenomics Identifies Primary and Fine-Tuning Roles for CRKs in Responses Related to Oxidative Stress

Bourdais¹,

Burdiak²,

Gauthier³

et al. 2015

PLoS Genet

175

181

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Cysteine-rich receptor-like kinases (CRKs) are transmembrane proteins characterized by the presence of two domains of unknown function 26 (DUF26) in their ectodomain. The CRKs form one of the largest groups of receptor-like protein kinases in plants, but their biological functions have so far remained largely uncharacterized. We conducted a large-scale phenotyping approach of a nearly complete crk T-DNA insertion line collection showing that CRKs control important aspects of plant development and stress adaptation in response to biotic and abiotic stimuli in a non-redundant fashion. In particular, the analysis of reactive oxygen species (ROS)-related stress responses, such as regulation of the stomatal aperture, suggests that CRKs participate in ROS/redox signalling and sensing. CRKs play general and fine-tuning roles in the regulation of stomatal closure induced by microbial and abiotic cues. Despite their great number and high similarity, large-scale phenotyping identified specific functions in diverse processes for many CRKs and indicated that CRK2 and CRK5 play predominant roles in growth regulation and stress adaptation, respectively. As a whole, the CRKs contribute to specificity in ROS signalling. Individual CRKs control distinct responses in an antagonistic fashion suggesting future potential for using CRKs in genetic approaches to improve plant performance and stress tolerance.

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Gildas Bourdais

Ethylene Signaling Regulates Accumulation of the FLS2 Receptor and Is Required for the Oxidative Burst Contributing to Plant Immunity

PAMP (Pathogen-associated Molecular Pattern)-induced Changes in Plasma Membrane Compartmentalization Reveal Novel Components of Plant Immunity

Clathrin-dependent endocytosis is required for immunity mediated by pattern recognition receptor kinases

Large-Scale Phenomics Identifies Primary and Fine-Tuning Roles for CRKs in Responses Related to Oxidative Stress

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