Implication of S-d-Lactoylglutathione in the Spontaneous Cysteine S-Glutathionylation and Lysine N-Lactoylation of Arabidopsis thaliana NAD-Dependent Glyceraldehyde-3-Phosphate Dehydrogenase
Camille Clément, Sonia Dorion, Natalia V. Bykova, Vincent Fetterley, Elvis Branchini, Charlie Boutin, Laurent Cappadocia, Jean Rivoal

TL;DR
This study shows that S-d-lactoylglutathione modifies a key enzyme in Arabidopsis, affecting its activity and potentially regulating glycolysis.
Contribution
The study identifies novel post-translational modifications of GAPC1 in plants via S-d-lactoylglutathione.
Findings
S-d-lactoylglutathione inhibits GAPC1 activity in a concentration- and pH-dependent manner.
GAPC1 undergoes S-glutathionylation and N-lactoylation when treated with S-d-lactoylglutathione.
Glutaredoxin and thioredoxin can reverse the inhibitory effects of S-d-lactoylglutathione on GAPC1.
Abstract
The glyoxalase pathway intermediate S-d-lactoylglutathione was recently implicated in protein post-translational modifications in animal systems. Here, we examined the spontaneous modification of the Arabidopsis thaliana cytosolic glyceraldehyde-3-phosphate dehydrogenase C1 (GAPC1) by this compound. Incubation of GAPC1 with S-d-lactoylglutathione resulted in the inhibition of enzyme activity. The inhibitory effect was concentration dependent and increased at alkaline pHs. Furthermore, the inhibition of GAPC1 by S-d-lactoylglutathione was favored by oxidative conditions and reversed by reduction with dithiothreitol. Analyses of the S-d-lactoylglutathione-treated protein by nanoLC-MS/MS revealed S-glutathionylation of its two Cys residues and N-lactoylation of six Lys residues. Protein structure predictions showed that the double S-glutathionylation is accommodated by the GAPC1 catalytic…
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Taxonomy
TopicsRedox biology and oxidative stress · Advanced Glycation End Products research · Enzyme Structure and Function
