Profiling the Site of Protein CoAlation and Coenzyme A Stabilization Interactions

Maria Armineh Tossounian, Maria Baczynska, William Dalton, Charlie Newell, Yilin Ma, Sayoni Das, Jonathan Alexis Semelak, Dario Ariel Estrin, Valeriy Filonenko, Madia Trujillo, Sew Yeu Peak-Chew, Mark Skehel, Franca Fraternali, Christine Orengo, Ivan Gout*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

13 Citations (Scopus)

Abstract

Coenzyme A (CoA) is a key cellular metabolite known for its diverse functions in metabolism and regulation of gene expression. CoA was recently shown to play an important antioxidant role under various cellular stress conditions by forming a disulfide bond with proteins, termed CoAlation. Using anti-CoA antibodies and liquid chromatography tandem mass spectrometry (LC-MS/MS) methodologies, CoAlated proteins were identified from various organisms/tissues/cell-lines under stress conditions. In this study, we integrated currently known CoAlated proteins into mammalian and bacterial datasets (CoAlomes), resulting in a total of 2093 CoAlated proteins (2862 CoAlation sites). Functional classification of these proteins showed that CoAlation is widespread among proteins involved in cellular metabolism, stress response and protein synthesis. Using 35 published CoAlated protein structures, we studied the stabilization interactions of each CoA segment (adenosine diphosphate (ADP) moiety and pantetheine tail) within the microenvironment of the modified cysteines. Alternating polar-non-polar residues, positively charged residues and hydrophobic interactions mainly stabilize the pantetheine tail, phosphate groups and the ADP moiety, respectively. A flexible nature of CoA is observed in examined structures, allowing it to adapt its conformation through interactions with residues surrounding the CoAlation site. Based on these findings, we propose three modes of CoA binding to proteins. Overall, this study summarizes currently available knowledge on CoAlated proteins, their functional distribution and CoA–protein stabilization interactions.

Original languageEnglish
Article number1362
JournalAntioxidants
Volume11
Issue number7
DOIs
Publication statusPublished - Jul 2022

Keywords

  • CoA stabilization interactions
  • CoAlation
  • coenzyme A
  • mixed-disulfide
  • oxidative stress
  • thiolation

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