Aberrant GPX4 processing reveals its critical roles in maintaining ROS homeostasis in Citrus

Glutathione peroxidases (GPXs) are widely recognized as key antioxidants that mitigate oxidative stress by detoxifying reactive oxygen species (ROS). However, GPXs are largely uncharacterized in citrus. Here, we demonstrated that Citrus sinensis contains four GPX proteins (CsGPX1-4). Unexpectedly, overexpression of CsGPX4, a homolog of AtGPX8 in Arabidopsis, in citrus resulted in typical oxidative stress phenotypes including severe growth inhibition, chlorosis, and elevated intracellular ROS accumulation. Transmission electron microscopy (TEM) analysis further revealed stress responses at cellular level. Whole genome shot gun sequencing analysis showed that T-DNA insertion occurs in the UTR of SWEET2 gene, which is unlikely to be responsible for the oxidative stress phenotypes. Immunoblotting revealed that CsGPX4 accumulates as a truncated protein in citrus, in contrast to the full-length version expressed in Nicotiana benthamiana. MALDI-TOF assays further confirmed the truncation of CsGPX4 in the transgenic line with the predicted cleavage site between L115-K117. This truncation was associated with altered subcellular localization, shifting from cytoplasmic and nuclear distribution in N. benthamiana to membrane association in citrus. Proteomic profiling further indicated extensive reprogramming of pathways involved in detoxification, cytoskeletal stability, hormone signaling, and cell wall modification. Our data suggests that de facto overexpression of truncated CsGPX4 may have dominant-negative effects on proteins interacting with CsGPX4, thus interfering with their normal functions. In conclusion, our study demonstrates CsGPX4 as a critical regulator of redox homeostasis and ROS homeostasis in citrus and reveals selective truncation of CsGPX4 as a unique proteolytic or regulatory strategies in such processes.