4.7 Article

Function and Regulation of Chloroplast Peroxiredoxin IIE

期刊

ANTIOXIDANTS
卷 10, 期 2, 页码 -

出版社

MDPI
DOI: 10.3390/antiox10020152

关键词

peroxiredoxin; glutathione; S-glutathionylation; glutaredoxin; 14-3-3 protein; phosphorylation; posttranslational modification; redox regulatory network

资金

  1. Deutsche Forschungsgemeinschaft (DFG) [DI 346/14-2, MO 479/11-1, DI 346/17-2]

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Peroxiredoxins play a crucial role in redox regulation in the cell, with PRX-IIE in chloroplast protein network being found to undergo various posttranslational modifications. Its interaction with 14-3-3 upsilon protein under oxidizing conditions may guide PRX-IIE to specific target proteins for redox regulation, offering a new perspective on the cellular redox regulatory network.
Peroxiredoxins (PRX) are thiol peroxidases that are highly conserved throughout all biological kingdoms. Increasing evidence suggests that their high reactivity toward peroxides has a function not only in antioxidant defense but in particular in redox regulation of the cell. Peroxiredoxin IIE (PRX-IIE) is one of three PRX types found in plastids and has previously been linked to pathogen defense and protection from protein nitration. However, its posttranslational regulation and its function in the chloroplast protein network remained to be explored. Using recombinant protein, it was shown that the peroxidatic Cys121 is subjected to multiple posttranslational modifications, namely disulfide formation, S-nitrosation, S-glutathionylation, and hyperoxidation. Slightly oxidized glutathione fostered S-glutathionylation and inhibited activity in vitro. Immobilized recombinant PRX-IIE allowed trapping and subsequent identification of interaction partners by mass spectrometry. Interaction with the 14-3-3 upsilon protein was confirmed in vitro and was shown to be stimulated under oxidizing conditions. Interactions did not depend on phosphorylation as revealed by testing phospho-mimicry variants of PRX-IIE. Based on these data it is proposed that 14-3-3 upsilon guides PRX-IIE to certain target proteins, possibly for redox regulation. These findings together with the other identified potential interaction partners of type II PRXs localized to plastids, mitochondria, and cytosol provide a new perspective on the redox regulatory network of the cell.

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