Ca<sup>2+</sup>‐dependent lipid binding and membrane integration of PopA, a harpin‐like elicitor of the hypersensitive response in tobacco

Racapé, Judith; Belbahri, Lassaâd; Engelhardt, Stefan; Lacombe, Benoı̂t; Lee, Justin; Lochman, Jan; Marais, Antoine; Nicole, Michel; Nürnberger, Thorsten; Parlange, Francis; Puverel, Sandrine; Keller, Harald

doi:10.1111/j.1365-2958.2004.04910.x

Cited by 48 publications

(53 citation statements)

References 87 publications

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“…Importantly, the bacterial effector protein HrpZ Psph from P. syringae pv phaseolicola mediated ion pore formation as shown previously (Lee et al, 2001). HrpZ Psph and related bacterial effectors form ion-conducting pores not only in artificial membranes but also in biological membranes, such as the plasma membrane of Xenopus laevis oocytes (our unpublished data; Racape et al, 2005). However, NLP Pya proved insufficient to generate any ion currents in this system ( Figure 8C), suggesting that it did not directly affect membrane integrity through intrinsic ionophore activity.…”

Section: Nlp Interacts With a Target Site That Is Unique To The Extramentioning

confidence: 79%

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Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

et al. 2006

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We show that oomycete-derived Nep1 (for necrosis and ethylene-inducing peptide1)-like proteins (NLPs) trigger a comprehensive immune response in Arabidopsis thaliana, comprising posttranslational activation of mitogen-activated protein kinase activity, deposition of callose, production of nitric oxide, reactive oxygen intermediates, ethylene, and the phytoalexin camalexin, as well as cell death. Transcript profiling experiments revealed that NLPs trigger extensive reprogramming of the Arabidopsis transcriptome closely resembling that evoked by bacteria-derived flagellin. NLP-induced cell death is an active, light-dependent process requiring HSP90 but not caspase activity, salicylic acid, jasmonic acid, ethylene, or functional SGT1a/SGT1b. Studies on animal, yeast, moss, and plant cells revealed that sensitivity to NLPs is not a general characteristic of phospholipid bilayer systems but appears to be restricted to dicot plants. NLP-induced cell death does not require an intact plant cell wall, and ectopic expression of NLP in dicot plants resulted in cell death only when the protein was delivered to the apoplast. Our findings strongly suggest that NLP-induced necrosis requires interaction with a target site that is unique to the extracytoplasmic side of dicot plant plasma membranes. We propose that NLPs play dual roles in plant pathogen interactions as toxin-like virulence factors and as triggers of plant innate immune responses.

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Section: Nlp Interacts With a Target Site That Is Unique To The Extramentioning

confidence: 79%

“…Liposomes filled with the cation-sensitive fluorescent dye Sodium Green (Invitrogen) were obtained from Novosom. Ion pore formation experiments and patch-clamp analyses using Xenopus laevis oocytes were performed as described (Racape et al, 2005).…”

Section: Biochemical and Cell Physiological Assaysmentioning

confidence: 99%

Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

et al. 2006

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“…This hypothesis was confirmed when 0.2 nM HrpW ea was found to inhibit HrpN ea -induced cell death. Although the PopA rs harpin was recently found to form oligomers through the conserved GxxxG amino acid motif (Racape et al, 2005), this inhibition is unlikely to be the result of the direct interaction between HrpW ea and HrpN ea because GST pull-down technology did not show any interaction between HrpW ea and HrpN ea (data not shown). In addition, the fact that the most effective concentration of HrpW ea to inhibit HrpN ea -induced cell death was onethousandth of that of HrpN ea , also constitutes evidence against a direct protein-protein interaction.…”

Section: Discussionmentioning

confidence: 99%

Antagonistic action of harpin proteins: HrpWea from Erwinia amylovora suppresses HrpNea-induced cell death in Arabidopsis thaliana

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Frankart

Briand

et al. 2007

Journal of Cell Science

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Harpins are proteins secreted by the type-three secretion system of phytopathogenic bacteria. They are known to induce a hypersensitive response (HR) in non-host plant leaf tissue. Erwinia amylovora, the fire blight pathogen of pear and apple trees, secretes two different harpins, HrpNea and HrpWea. In the present study, we showed that an Erwinia amylovora hrpWea mutant induces stronger electrolyte leakages in Arabidopsis thaliana foliar disks than the wild-type strain, thus suggesting that HrpWea could function as a HR negative modulator. We confirmed this result by using purified HrpWea and HrpNea. HrpWea has dual effects depending on its concentration. At 200 nM, HrpWea, like HrpNea, provoked the classical defense response – active oxygen species (AOS) production and cell death. However, at 0.2 nM, HrpWea inhibited cell death and AOS production provoked by HrpNea. HrpWea probably inhibits HrpNea-induced cell death by preventing anion channel inhibition, confirming that anion channel regulation is a determinant feature of the plant response to harpins. Collectively our data show that the HrpWea harpin can act antagonistically to the classical HrpNea harpin by suppressing plant defense mechanisms.

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“…R. solanacearum GMI1000 also expresses the single-domain harpin PopA, which has been shown to form ion-conducting pores in artificial and biological membranes. However, popA mutants have no detectable phenotype (4,57). It would be interesting to determine if PopA overexpression could complement any of the ⌬popF1 phenotypes.…”

Section: Discussionmentioning

confidence: 99%

Identification of Harpins in Pseudomonas syringae pv. tomato DC3000, Which Are Functionally Similar to HrpK1 in Promoting Translocation of Type III Secretion System Effectors

et al. 2007

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Harpins are a subset of type III secretion system (T3SS) substrates found in all phytopathogenic bacteria that utilize a T3SS. Pseudomonas syringae pv. tomato DC3000 was previously reported to produce two harpins, HrpZ1 and HrpW1. DC3000 was shown here to deploy two additional proteins, HopAK1 and HopP1, which have the harpin-like properties of lacking cysteine, eliciting the hypersensitive response (HR) when partially purified and infiltrated into tobacco leaves, and possessing a two-domain structure similar to that of the HrpW1 class of harpins. Unlike the single-domain harpin HrpZ1, the two-domain harpins have C-terminal enzyme-like domains: pectate lyase for HopAK1 and lytic transglycosylase for HopP1. Genetic techniques to recycle antibiotic markers were applied to DC3000 to generate a quadruple harpin gene polymutant. The polymutant was moderately reduced in the elicitation of the HR and translocation of the T3SS effector AvrPto1 fused to a Cya translocation reporter, but the mutant was unaffected in the secretion of AvrPto1-Cya. The DC3000 hrpK1 gene encodes a putative translocator in the HrpF/NopX family and was deleted in combination with the four harpin genes. The hrpK1 quadruple harpin gene polymutant was strongly reduced in HR elicitation, virulence, and translocation of AvrPto1-Cya into plant cells but not in the secretion of representative T3SS substrates in culture. HrpK1, HrpZ1, HrpW1, and HopAK1, but not HopP1, were independently capable of restoring some HR elicitation to the hrpK1 quadruple harpin gene polymutant, which suggests that a consortium of semiredundant translocators from three protein classes cooperate to form the P. syringae T3SS translocon.The type III secretion system (T3SS) is an important virulence determinant in gram-negative bacterial pathogens of animals and plants (17). In Pseudomonas syringae pv. tomato DC3000, the T3SS, which is encoded by the hrp-hrc (hypersensitive response [HR] and pathogenicity-hr conserved) gene cluster, is required for elicitation of the defense-associated HR in nonhost plants like tobacco and for pathogenicity in host plants like tomato. Both HR elicitation and pathogenicity require the translocation into plant cells of effectors, which are also known as Avr (avirulence) proteins or Hops (Hrp outer proteins) (44).The T3SS of pathogens must cross three biological membranes, the inner and outer bacterial membranes and the host plasma membrane. Breaching the host plasma membrane is expected to involve a T3SS pore-forming translocon complex (17). In addition, the T3SS of phytopathogens such as P. syringae, Erwinia amylovora, Ralstonia solanacearum, Pantoea spp., and Xanthomonas spp. must cross the plant cell wall, which can be several hundred nanometers in width and is constructed primarily of a meshwork of polysaccharides, with pectic polymers being particularly important in controlling pore size and integrity (59,66). Because of this additional barrier, the Hrp pilus of phytopathogens is much longer than the T3SS extracellular appendages of animal p...

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Ca²⁺‐dependent lipid binding and membrane integration of PopA, a harpin‐like elicitor of the hypersensitive response in tobacco

Cited by 48 publications

References 87 publications

Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

Antagonistic action of harpin proteins: HrpWea from Erwinia amylovora suppresses HrpNea-induced cell death in Arabidopsis thaliana

Identification of Harpins in Pseudomonas syringae pv. tomato DC3000, Which Are Functionally Similar to HrpK1 in Promoting Translocation of Type III Secretion System Effectors

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Ca2+‐dependent lipid binding and membrane integration of PopA, a harpin‐like elicitor of the hypersensitive response in tobacco

Cited by 48 publications

References 87 publications

Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins

Antagonistic action of harpin proteins: HrpWea from Erwinia amylovora suppresses HrpNea-induced cell death in Arabidopsis thaliana

Identification of Harpins in Pseudomonas syringae pv. tomato DC3000, Which Are Functionally Similar to HrpK1 in Promoting Translocation of Type III Secretion System Effectors

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Ca²⁺‐dependent lipid binding and membrane integration of PopA, a harpin‐like elicitor of the hypersensitive response in tobacco