Najmeh Nejat scite author profile

Upon pathogen infection, receptors in plants will activate a localized immune response, the effector-triggered immunity (ETI), and a systemic immune response, the systemic acquired response (SAR). Infection also induces oscillations in the redox environment of plant cells, triggering response mechanisms involving sensitive cysteine residues that subsequently alter protein function. Arabidopsis thaliana thimet oligopeptidases TOP1 and TOP2 are required for plant defense against pathogens and the oxidative stress response. Herein, we evaluated the biochemical attributes of TOP isoforms to determine their redox sensitivity using ex vivo Escherichia coli cultures and recombinant proteins. Moreover, we explored the link between their redox regulation and plant immunity in wild-type and mutant Arabidopsis lines. These analyses revealed that redox regulation of TOPs occurs through two mechanisms: (1) oxidative dimerization of full-length TOP1 via intermolecular disulfides engaging cysteines in the N-terminal signal peptide, and (2) oxidative activation of all TOPs via cysteines that are unique and conserved. Further, we detected increased TOP activity in wild-type plants undergoing ETI or SAR following inoculation with Pseudomonas syringae strains. Mutants unable to express the chloroplast NADPH-dependent thioredoxin reductase C (NTRC) showed elevated TOP activity under unstressed conditions and were SAR-incompetent. A top1top2 knockout mutant challenged with P. syringae exhibited misregulation of ROS-induced gene expression in pathogen-inoculated and distal tissues. Furthermore, TOP1 and TOP2 could cleave a peptide derived from the immune component ROC1 with distinct efficiencies at common and specific sites. We propose that Arabidopsis TOPs are thiol-regulated peptidases active in redox-mediated signaling of local and systemic immunity.

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Integrin-Linked Kinases 1, 4, and 5 Converge to Regulate the Cell Wall Integrity and Innate Immunity to Leaf and Root Pathogens

Dimlioglu

Nejat

Cooley

et al. 2022

SSRN Journal

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Coordinate activity of TOP1 and TOP2 oligopeptidases determine systemic acquired resistance through the regulation of cellular redox state

Nejat

2020

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High throughput peptidomics elucidates immunoregulatory functions of plant thimet oligopeptidase-directed proteostasis

Iannetta

Berg

Nejat

et al. 2022

Preprint

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Targeted proteolysis activities activated during the plant immune response catalyze the synthesis of stable endogenous peptides. Little is known about their biogenesis and biological roles. Herein, we characterize an Arabidopsis thaliana mutant top1top2 in which targeted proteolysis of immune-active peptides is drastically impaired during effector-triggered immunity (ETI). For effective ETI, the redox-sensitive thimet oligopeptidases TOP1 and TOP2 are required. Quantitative mass spectrometry-based peptidomics allowed differential peptidome profiling of wild type (WT) and top1top2 mutant at the early ETI stages. Biological processes of energy-producing and redox homeostasis were enriched, and TOPs were necessary to maintain the dynamics of ATP and NADP(H) accumulation in the plant during ETI. Subsequently, a set of novel TOPs substrates validated in vitro enabled the definition of the TOP-specific cleavage motif and informed an in-silico model of TOP proteolysis to generate bioactive peptide candidates. Several candidates, including those derived from proteins associated with redox metabolism, were confirmed in planta. The top1top2 background rescued WT’s ETI deficiency caused by treatment with peptides derived from targeted proteolysis of the negative immune regulator FBR12, the reductive enzyme APX1, the isoprenoid pathway enzyme DXR, and ATP-subunit β. These results demonstrate TOPs role in orchestrating the production and degradation of phytocytokines.

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Rain Effect on Satellite Communication’s Link Design in regions of P, N, and K with Logic design implementation

Nejat

Nazeri

Nejat

et al. 2023

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Najmeh Nejat

Arabidopsis thimet oligopeptidases are redox-sensitive enzymes active in the local and systemic plant immune response

Integrin-Linked Kinases 1, 4, and 5 Converge to Regulate the Cell Wall Integrity and Innate Immunity to Leaf and Root Pathogens

Coordinate activity of TOP1 and TOP2 oligopeptidases determine systemic acquired resistance through the regulation of cellular redox state

High throughput peptidomics elucidates immunoregulatory functions of plant thimet oligopeptidase-directed proteostasis

Rain Effect on Satellite Communication’s Link Design in regions of P, N, and K with Logic design implementation

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