Nucleoredoxin 1 positively regulates heat stress tolerance by enhancing the transcription of antioxidants and heat-shock proteins in tomato.

ABSTRACT

Thioredoxins (TRXs) are small oxidoreductase proteins located in various subcellular compartments. Nucleoredoxin (NRX) is a nuclear-localized TRX and a key component for the integration of the antioxidant system with the immune response. Although NRX is well characterized in biotic stress responses, its functional role in abiotic stress responses is still elusive. To understand whether NRX contributes to heat stress response in tomato (Solanum lycopersicum), we generated CRISPR/Cas9-mediated mutations in SlNRX1 (slnrx1). Interestingly, the slnrx1 mutant was extremely sensitive to heat stress with higher electrolyte leakage, malondialdehyde contents, and H2O2 concentration compared to wild-type tomato plants, suggesting that SlNRX1 negatively regulates heat stress-induced oxidative damage. We also found that transcripts encoding antioxidant enzymes and Heat-Shock Proteins (HSPs) in slnrx1 were down-regulated either in the absence or presence of heat stress. These data suggest that NRX1 is a positive regulator for heat stress tolerance by elevating antioxidant capacity and inducing HSPs to protect cells against heat stress-induced oxidative damage and protein denaturation, respectively.