Protein promiscuity in H2O2 signaling

David Young, Brandan Pedre, Daria Ezerina, Barbara De Smet, Aleksandra Lewandowska, Maria-Armineh Tossounian, Nandita Bodra, Jingjing Huang, Leonardo Astolfi Rosado, Frank Van Breusegem, Joris Messens

Research output: Contribution to journalArticlepeer-review

27 Citations (Scopus)

Abstract

SIGNIFICANCE:
Decrypting the cellular response to oxidative stress relies on a comprehensive understanding of the redox signaling pathways stimulated under oxidizing conditions. Redox signaling events can be divided into upstream sensing of oxidants, midstream redox signaling of protein function, and downstream transcriptional redox regulation. Recent Advances: A more and more accepted theory of hydrogen peroxide (H2O2) signaling is that of a thiol peroxidase redox relay, whereby protein thiols with low reactivity toward H2O2 are instead oxidized through an oxidative relay with thiol peroxidases.
CRITICAL ISSUES:
These ultrareactive thiol peroxidases are the upstream redox sensors, which form the first cellular port of call for H2O2. Not all redox-regulated interactions between thiol peroxidases and cellular proteins involve a transfer of oxidative equivalents, and the nature of redox signaling is further complicated through promiscuous functions of redox-regulated "moonlighting" proteins, of which the precise cellular role under oxidative stress can frequently be obscured by "polygamous" interactions. An ultimate goal of redox signaling is to initiate a rapid response, and in contrast to prokaryotic oxidant-responsive transcription factors, mammalian systems have developed redox signaling pathways, which intersect both with kinase-dependent activation of transcription factors, as well as direct oxidative regulation of transcription factors through peroxiredoxin (Prx) redox relays.
FUTURE DIRECTIONS:
We highlight that both transcriptional regulation and cell fate can be modulated either through oxidative regulation of kinase pathways, or through distinct redox-dependent associations involving either Prxs or redox-responsive moonlighting proteins with functional promiscuity. These protein associations form systems of crossregulatory networks with multiple nodes of potential oxidative regulation for H2O2-mediated signaling.
Original languageEnglish
Pages (from-to)1285-1324
Number of pages40
JournalAntioxidants & Redox Signaling
Volume30
Issue number10
DOIs
Publication statusPublished - 1 Apr 2019

Keywords

  • moonlighting functionality
  • peroxidase signaling
  • thiol redox
  • transcription factors

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