Pepper Heat Shock Protein 70a Interacts with the Type III Effector AvrBsT and Triggers Plant Cell Death and Immunity |
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Authors: | Nak Hyun Kim Byung Kook Hwang |
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Affiliation: | Laboratory of Molecular Plant Pathology, College of Life Sciences and Biotechnology, Korea University, Seoul 136–713, Republic of Korea |
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Abstract: | Heat shock proteins (HSPs) function as molecular chaperones and are essential for the maintenance and/or restoration of protein homeostasis. The genus Xanthomonas type III effector protein AvrBsT induces hypersensitive cell death in pepper (Capsicum annuum). Here, we report the identification of the pepper CaHSP70a as an AvrBsT-interacting protein. Bimolecular fluorescence complementation and coimmunoprecipitation assays confirm the specific interaction between CaHSP70a and AvrBsT in planta. The CaHSP70a peptide-binding domain is essential for its interaction with AvrBsT. Heat stress (37°C) and Xanthomonas campestris pv vesicatoria (Xcv) infection distinctly induce CaHSP70a in pepper leaves. Cytoplasmic CaHSP70a proteins significantly accumulate in pepper leaves to induce the hypersensitive cell death response by Xcv (avrBsT) infection. Transient CaHSP70a overexpression induces hypersensitive cell death under heat stress, which is accompanied by strong induction of defense- and cell death-related genes. The CaHSP70a peptide-binding domain and ATPase-binding domain are required to trigger cell death under heat stress. Transient coexpression of CaHSP70a and avrBsT leads to cytoplasmic localization of the CaHSP70a-AvrBsT complex and significantly enhances avrBsT-triggered cell death in Nicotiana benthamiana. CaHSP70a silencing in pepper enhances Xcv growth but disrupts the reactive oxygen species burst and cell death response during Xcv infection. Expression of some defense marker genes is significantly reduced in CaHSP70a-silenced leaves, with lower levels of the defense hormones salicylic acid and jasmonic acid. Together, these results suggest that CaHSP70a interacts with the type III effector AvrBsT and is required for cell death and immunity in plants.The heat shock protein HSP70 is a ubiquitous essential protein chaperone and one of the most abundant and diverse heat stress proteins in plants. HSP70s are induced by environmental stresses and are required for plants to cope with heat. HSP70s are involved in protein folding, synthesis, translocation, and macromolecular assemblies such as microtubules (Mayer et al., 2001; Hartl and Hayer-Hartl, 2002). HSP70s protect cells from heat stress by preventing protein aggregation and by facilitating the refolding of denatured proteins. Protein stability can decrease under heat stress conditions and expose hydrophobic patches that cause the aggregation of denatured proteins. HSP70s bind to hydrophobic patches of partially unfolded proteins in an ATP-dependent manner and prevent protein aggregation (Mayer and Bukau, 2005). The modular HSP70 structure consists of a N-terminal ATPase domain and a C-terminal peptide-binding domain that contains a β-sandwich subdomain with a peptide-binding cleft and an α-helical latch-like segment (Zhu et al., 1996; Hartl and Hayer-Hartl, 2002).HSP70s are involved in microbial pathogenesis, cell death responses, and immune responses. Diverse RNA viruses induce HSP70 expression in Arabidopsis (Arabidopsis thaliana; Whitham et al., 2003). Cytoplasmic HSP70s enhance the infection of Nicotiana benthamiana by Tobacco mosaic virus, Potato virus X, Cucumber mosaic virus, and Watermelon mosaic virus (Chen et al., 2008). Recently, the coat protein of Tomato yellow leaf curl virus was suggested to recruit host plant HSP70 during virus infection (Gorovits et al., 2013). HSP70s appear to be involved in regulating viral reproduction, protein folding, and movement, which ultimately promotes viral infection (Boevink and Oparka, 2005; Hafrén et al., 2010). The Pseudomonas syringae effector protein Hopl1 directly binds and manipulates host HSP70, which promotes bacterial virulence (Jelenska et al., 2010). The cytosolic/nuclear heat shock cognate 70 (HSC70) chaperone, which is highly homologous to HSP70 (Tavaria et al., 1996), regulates Arabidopsis immune responses together with SGT1 (for the suppressor of the G2 allele of S-phase kinase-associated protein1 [skp1]; Noël et al., 2007). Cytoplasmic HSP70 is required for the Phytophthora infestans INF1-mediated hypersensitive response (HR) and nonhost resistance to Pseudomonas cichorii in N. benthamiana (Kanzaki et al., 2003). HSP70 is proposed to be involved in both positive and negative regulation of cell death. Selective HSP70 depletion from human cell lines activates a tumor-specific death program that is independent of known caspases and p53 tumor-suppressor protein (Nylandsted et al., 2000), whereas HSP70 promotes tumor necrosis factor-mediated apoptosis by binding IkB kinase γ and impairing nuclear factor-κB signaling in Cos-1 cells (Ran et al., 2004). In N. benthamiana, HSP70 is required for tabtoxinine-β-lactam-induced cell death (Ito et al., 2014). However, HSP70 expression is shown to decrease the cell death triggered by salicylic acid (SA) in Nicotiana tabacum protoplasts (Cronjé et al., 2004). Overexpression of mitochondrial HSP70 suppresses heat- and hydrogen peroxide (H2O2)-induced programmed cell death in rice (Oryza sativa; Qi et al., 2011).The genus Xanthomonas YopJ-like AvrBsT protein activates effector-triggered immunity (ETI) in Arabidopsis Pitztal 0 plants (Cunnac et al., 2007). AvrBsT is a member of the YopJ/AvrRxv family identified in Xanthomonas campestris pv vesicatoria (Xcv; Lewis et al., 2011). AvrBsT alters phospholipid signaling and activates defense responses in Arabidopsis (Kirik and Mudgett, 2009). AvrBsT is an acetyltransferase that acetylates Arabidopsis ACETYLATED INTERACTING PROTEIN1 (ACIP1), a microtubule-associated protein required for plant immunity (Cheong et al., 2014). Xcv strain Bv5-4a secretes the AvrBsT type III effector protein that induces hypersensitive cell death and strong defense responses in pepper (Capsicum annuum) and N. benthamiana (Orth et al., 2000; Escolar et al., 2001; Kim et al., 2010). AvrBsT-induced HR-like cell death in pepper is likely part of the typical ETI-mediated defense response cascade (Jones and Dangl, 2006; Eitas et al., 2008; Eitas and Dangl, 2010). AvrBsT overexpression in Arabidopsis triggers plant cell death and defense signaling, leading to both disease and defense responses to diverse microbial pathogens (Hwang et al., 2012). Type III effectors such as Hopl1 and AvrBsT are used to identify unknown components of plant defense cascades (Nomura et al., 2006; Block et al., 2008; Jelenska et al., 2010; Kim et al., 2014) that modulate host innate immunity to achieve disease resistance. The pepper SGT1 was identified recently as a host interactor of AvrBsT (Kim et al., 2014). Pepper SGT1 has features of a cochaperone (Shirasu and Schulze-Lefert, 2003), interacts with AvrBsT, and promotes hypersensitive cell death associated with the pepper receptor-like cytoplasmic protein kinase1 (PIK1) phosphorylation cascade.In this study, we used a yeast (Saccharomyces cerevisiae) two-hybrid screen to identify the pepper HSP70a (CaHSP70a) as an interacting partner of the Xanthomonas spp. type III effector AvrBsT. Coimmunoprecipitation and bimolecular fluorescence complementation (BiFC) analyses verify that CaHSP70a interacts with AvrBsT in planta. Transient CaHSP70a overexpression in pepper leaves enhances heat stress sensitivity and leads to a cell death response. Cytoplasmic localization of the AvrBsT-CaHSP70a complex strongly elevates cell death. CaHSP70a expression is rapidly and strongly induced by avrBsT (for avirulent Xcv Dukso1 [Ds1]) infection in pepper. CaHSP70a silencing enhances susceptibility to Xcv infection, attenuates the reactive oxygen species (ROS) burst and cell death response, reduces SA and jasmonic acid (JA) levels, and disrupts expression of the defense response genes C. annuum pathogenesis-related protein1 (CaPR1; Kim and Hwang, 2000), CaPR10 (Choi et al., 2012), and CaDEF1 (for defensin; Do et al., 2004). Taken together, this study demonstrates that CaHSP70a is a target of the Xanthomonas spp. type III effector AvrBsT and acts as a positive regulator of plant cell death and immunity signaling. |
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