CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper

Cai, Weiwei; Yang, Sheng; Wu, Ruijie; Zheng, Yi; He, Shicong; Shen, Lei

doi:10.1371/journal.pgen.1010023

Cited by 6 publications

(3 citation statements)

References 106 publications

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“…In A. thaliana, SWC4 is associated with the SWR1 and the NuA4 acetyltransferase complexes which both have a role in the epigenetic regulation (Espinosa-Cores et al 2020 ; Willhoft and Wigley 2020 ). Recently, it has been demonstrated in pepper that SWC4 affects the responses to both pathogen infection and HS and does so by modulating chromatin of specific target genes (Cai et al 2022 ). We therefore propose that cAMP-dependent phosphorylation of SWC4 may contribute to altered responses of the cAMP-depleted cells, both in response to HS and pathogens (Paradiso et al 2020 ; Sabetta et al 2019 ).…”

Section: Resultsmentioning

confidence: 99%

The cAMP-dependent phosphorylation footprint in response to heat stress

Domingo,

Marsoni,

Davide

et al. 2024

Plant Cell Rep

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Key message cAMP modulates the phosphorylation status of highly conserved phosphosites in RNA-binding proteins crucial for mRNA metabolism and reprogramming in response to heat stress. Abstract In plants, 3′,5′-cyclic adenosine monophosphate (3′,5′-cAMP) is a second messenger that modulates multiple cellular targets, thereby participating in plant developmental and adaptive processes. Although its role in ameliorating heat-related damage has been demonstrated, mechanisms that govern cAMP-dependent responses to heat have remained elusive. Here we analyze the role cAMP–dependent phosphorylation during prolonged heat stress (HS) with a view to gain insight into processes that govern plant responses to HS. To do so, we performed quantitative phosphoproteomic analyses in Nicotiana tabacum Bright Yellow-2 cells grown at 27 °C or 35 °C for 3 days overexpressing a molecular “sponge” that reduces free intracellular cAMP levels. Our phosphorylation data and analyses reveal that the presence of cAMP is an essential factor that governs specific protein phosphorylation events that occur during prolonged HS in BY-2 cells. Notably, cAMP modulates HS-dependent phosphorylation of proteins that functions in mRNA processing, transcriptional control, vesicular trafficking, and cell cycle regulation and this is indicative for a systemic role of the messenger. In particular, changes of cAMP levels affect the phosphorylation status of highly conserved phosphosites in 19 RNA-binding proteins that are crucial during the reprogramming of the mRNA metabolism in response to HS. Furthermore, phosphorylation site motifs and molecular docking suggest that some proteins, including kinases and phosphatases, are conceivably able to directly interact with cAMP thus further supporting a regulatory role of cAMP in plant HS responses.

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Section: Resultsmentioning

confidence: 99%

The cAMP-dependent phosphorylation footprint in response to heat stress

Domingo,

Marsoni,

Davide

et al. 2024

Plant Cell Rep

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“…Bacterial wilt caused by Ralstonia solanacearum is one of the most important soil-borne diseases in the production of pepper and other solanaceous crops, especially in tropical or subtropical regions, causing heavy loss in the productivity of these crops [25,26]. According to our previous studies, transcription factors including CaWRKY27b [27], CaWRKY28 [28], CaWRKY40 [29], CabZIP23 [30], CabZIP63 [30], CaNAC2c [31], and CaNAC029 [31], as well as other proteins such as CaCDPK29 [27] and chromatin remodeling-related CaSWC4 [32], are involved and constitute regulatory networks in pepper immunity against R. solanacearum and also participate in pepper thermotolerance. CaWRKY40 and CabZIP23 act crucially in this network, with CaWRKY40 being directly regulated by CabZIP23, to activate pepper immunity and thermotolerance that are distinct in their nature.…”

Section: Introductionmentioning

confidence: 98%

A 14-3-3 Protein Ca16R Acts Positively in Pepper Immunity against Ralstonia solanacearum by Interacting with CaASR1

Yang,

Wan,

Cheng

et al. 2024

Plants

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Although 14-3-3 proteins have been implicated in plant growth, development, and stress response, their roles in pepper immunity against R. solanacearum remain poorly understood. In this study, a 14-3-3-encoding gene in pepper, Ca16R, was found to be upregulated by R. solanacearum inoculation (RSI), its silencing significantly reduced the resistance of pepper plants to RSI, and its overexpression significantly enhanced the resistance of Nicotiana benthamiana to RSI. Consistently, its transient overexpression in pepper leaves triggered HR cell death, indicating that it acts positively in pepper immunity against RSI, and it was further found to act positively in pepper immunity against RSI by promoting SA but repressing JA signaling. Ca16R was also found to interact with CaASR1, originally using pull-down combined with a spectrum assay, and then confirmed using bimolecular fluorescence complementation (BiFC) and a pull-down assay. Furthermore, we found that CaASR1 transient overexpression induced HR cell death and SA-dependent immunity while repressing JA signaling, although this induction and repression was blocked by Ca16R silencing. All these data indicate that Ca16R acts positively in pepper immunity against RSI by interacting with CaASR1, thereby promoting SA-mediated immunity while repressing JA signaling. These results provide new insight into mechanisms underlying pepper immunity against RSI.

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“…In pepper ( Capsicum annuum ), the NAC-type transcription factor NAC DOMAIN CONTAINING PROTEIN 2c (CaNAC2c) coordinately regulates immunity and thermotolerance through its differential subcellular localization and interacting proteins 14 . A chromatin remodeling modulator CaSWC4 modulates the immunity-thermotolerance trade-off by recruiting transcription factors CabZIP63 and CaWRKY40 15 . AVRPPHB SUSCEPTIBLE 3 (PBS3), an acyl-adenylate/thioester-forming enzyme, balances plant immunity, salt stress responses and phyllosphere bacterial communities to maintain plant fitness through abscisic acid (ABA)-SA crosstalk under combined biotic and abiotic stresses 16 .…”

Section: Introductionmentioning

confidence: 99%

The OsSGS3-tasiRNA-OsARF3 module orchestrates abiotic-biotic stress response trade-off in rice

Feng

et al. 2023

Nat Commun

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Recurrent heat stress and pathogen invasion seriously threaten crop production, and abiotic stress often antagonizes biotic stress response against pathogens. However, the molecular mechanisms of trade-offs between thermotolerance and defense remain obscure. Here, we identify a rice thermo-sensitive mutant that displays a defect in floret development under high temperature with a mutation in SUPPRESSOR OF GENE SILENCING 3a (OsSGS3a). OsSGS3a interacts with its homolog OsSGS3b and modulates the biogenesis of trans-acting small interfering RNA (tasiRNA) targeting AUXIN RESPONSE FACTORS (ARFs). We find that OsSGS3a/b positively, while OsARF3a/b and OsARF3la/lb negatively modulate thermotolerance. Moreover, OsSGS3a negatively, while OsARF3a/b and OsARF3la/lb positively regulate disease resistance to the bacterial pathogen Xanthomonas oryzae pv. oryzae (Xoo) and the fungal pathogen Magnaporthe oryzae (M. oryzae). Taken together, our study uncovers a previously unknown trade-off mechanism that regulates distinct immunity and thermotolerance through the OsSGS3-tasiRNA-OsARF3 module, highlighting the regulation of abiotic-biotic stress response trade-off in plants.

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CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper

Cited by 6 publications

References 106 publications

The cAMP-dependent phosphorylation footprint in response to heat stress

The cAMP-dependent phosphorylation footprint in response to heat stress

A 14-3-3 Protein Ca16R Acts Positively in Pepper Immunity against Ralstonia solanacearum by Interacting with CaASR1

The OsSGS3-tasiRNA-OsARF3 module orchestrates abiotic-biotic stress response trade-off in rice

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