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Proceeding Paper

Protein-Protein Interaction between Glyoxalase II and Specific Redox Dependent Proteins through S-Glutathionylation Modification †

by
Laura Cianfruglia
1,*,
Cristina Minnelli
2,
Andrea Scirè
2 and
Tatiana Armeni
1
1
Department of Clinical Sciences, Section of Biochemistry, Biology and Physics, Università Politecnica delle Marche, 60131 Ancona, Italy
2
Department of Life and Environmental Sciences, Università Politecnica delle Marche, 60131 Ancona, Italy
*
Author to whom correspondence should be addressed.
Presented at the 1st International E-Conference on Antioxidants in Health and Disease, 1–15 December 2020; Available online: https://cahd2020.sciforum.net/.
Med. Sci. Forum 2021, 2(1), 7; https://doi.org/10.3390/CAHD2020-08615
Published: 30 November 2020
(This article belongs to the Proceedings of The 1st International e-Conference on Antioxidants in Health and Disease)
Versions Notes

Abstract

:
S-glutathionylation, the reversible formation of a mixed disulfide bridge between a specific cysteine and a glutathione molecule, can occur spontaneously or be catalyzed by enzymes. Glyoxalase II (GloII), using its natural substrate SLG can form specific protein-SSG mixed disulfide leading enzymatic regulation of S-glutathionylation.

1. Introduction

Glyoxalase II (Glo2), the second enzyme of Glyoxalase system, is an antioxidant glutathione-dependent enzyme, that catalyzes the hydrolysis of S-D-lactoylglutathione (SLG) to form D-lactic acid and glutathione (GSH) [1]. GSH is the most important thiol-reducing agent inside the cell. Due to its chemical features, GSH plays a crucial role not only in the cellular redox state but also in various cellular processes including protein S-glutathionylation. S-glutathionylation a process that involves the reversible formation of a mix disulphide-bridge between specific cysteine residues, and GSH can be spontaneous or catalyzed by an enzyme. S-Glutathionylation is also involved in the protection of protein thiol groups from irreversible oxidation and plays key role in redox regulation by activation/inactivation of different enzymes.

2. Methods

Glo2 and SLG were incubated with different proteins that are known to be glutathionylated, such as malate dehydrogenase, actin or cytochrome c purified proteins [2].

3. Results

During the hydrolysis of SLG, in the active site of Glo2 there is unprotonated glutatione molecule (GS-) which can be transferred to protein target [3]. These in vitro studies demonstrate the high propensity of Glo2 to aggregate with other proteins through its catalytic site, leading to an enzymatic regulation of S-glutathionylation in proteins of different origin and cellular compartmentalization.

4. Conclusions

Identification of active involvement of Glo2 in glutathionylation of different proteins. In this perspective, Glo2 can play a new important regulatory role in S-glutathionylation, acquiring further significance in cellular post-translational modifications of protein.

Supplementary Materials

The following are available online at https://www.mdpi.com/2673-9992/2/1/7/s1.

References

  1. Armeni, T.; Cianfruglia, L.; Piva, F.; Urbanelli, L.; Luisa Caniglia, M.; Pugnaloni, A.; Principato, G. S-D-Lactoylglutathione can be an alternative supply of mitochondrial glutathione. Free Radic. Biol. Med. 2014, 67, 451–459. [Google Scholar] [CrossRef]
  2. Ercolani, L.; Scire, A.; Galeazzi, R.; Massaccesi, L.; Cianfruglia, L.; Amici, A.; Piva, F.; Urbanelli, L.; Emiliani, C.; Principato, G.; et al. A possible S-glutathionylation of specific proteins by glyoxalase II: An in vitro and in silico study. Cell Biochem. Funct. 2016, 34, 620–627. [Google Scholar] [CrossRef] [PubMed]
  3. Galeazzi, R.; Laudadio, E.; Falconi, E.; Massaccesi, L.; Ercolani, L.; Mobbili, G.; Minnelli, C.; Scire, A.; Cianfruglia, L.; Armeni, T. Protein-protein interactions of human glyoxalase II: Findings of a reliable docking protocol. Org. Biomol. Chem. 2018, 16, 5167–5177. [Google Scholar] [CrossRef] [PubMed]
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MDPI and ACS Style

Cianfruglia, L.; Minnelli, C.; Scirè, A.; Armeni, T. Protein-Protein Interaction between Glyoxalase II and Specific Redox Dependent Proteins through S-Glutathionylation Modification. Med. Sci. Forum 2021, 2, 7. https://doi.org/10.3390/CAHD2020-08615

AMA Style

Cianfruglia L, Minnelli C, Scirè A, Armeni T. Protein-Protein Interaction between Glyoxalase II and Specific Redox Dependent Proteins through S-Glutathionylation Modification. Medical Sciences Forum. 2021; 2(1):7. https://doi.org/10.3390/CAHD2020-08615

Chicago/Turabian Style

Cianfruglia, Laura, Cristina Minnelli, Andrea Scirè, and Tatiana Armeni. 2021. "Protein-Protein Interaction between Glyoxalase II and Specific Redox Dependent Proteins through S-Glutathionylation Modification" Medical Sciences Forum 2, no. 1: 7. https://doi.org/10.3390/CAHD2020-08615

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