Abstract
S-Nitrosoglutathione (GSNO) undergoes spontaneous degradation that generates several nitrogen-containing compounds and oxidized glutathione derivatives. We identified glutathione sulfonic acid, glutathione disulfide S-oxide (GS(O)SG), glutathione disulfide S-dioxide, and GSSG as the major decomposition products of GSNO. Each of these compounds and GSNO were tested for their efficacies to modify rat brain neurogranin/RC3 (Ng) and neuromodulin/GAP-43 (Nm). Among them, GS(O)SG was found to be the most potent in causing glutathiolation of both proteins; four glutathiones were incorporated into the four Cys residues of Ng, and two were incorporated into the two Cys residues of Nm. Ng and Nm are two in vivo substrates of protein kinase C; their phosphorylations by protein kinase C attenuate the binding affinities of both proteins for calmodulin. When compared with their respective unmodified forms, the glutathiolated Ng was a poorer substrate and glutathiolated Nm a better substrate for protein kinase C. Glutathiolation of these two proteins caused no change in their binding affinities for calmodulin. Treatment of [(35)S]cysteine-labeled rat brain slices with xanthine/xanthine oxidase or a combination of xanthine/xanthine oxidase with sodium nitroprusside resulted in an increase in cellular level of GS(O)SG. These treatments, as well as those by other oxidants, all resulted in an increase in thiolation of proteins; among them, thiolation of Ng was positively identified by immunoprecipitation. These results show that GS(O)SG is one of the most potent glutathiolating agents generated upon oxidative stress.
Highlights
From the Section on Metabolic Regulation, Endocrinology and Reproduction Research Branch, NICHD, National Institutes of Health, Bethesda, Maryland 20892-4510
Materials—The following materials were obtained from the indicated sources: GSNO was from Calbiochem; sodium nitroprusside (SNP), diamide, bovine serum albumin, GSH, iodoacetamide (IAM), GSSG, xanthine (X), and xanthine oxidase (XO) were from Sigma; H2O2 was from Fisher Scientific; phosphatidylserine and dioleoylglycerol were from Avanti Polar Lipids; BCA protein determination reagent was from Pierce; [35S]cysteine was from PerkinElmer Life Sciences; protein ASepharose was from Amersham Pharmacia Biotech; and horseradish peroxidase-conjugated goat anti-rabbit IgG was from Bio-Rad
Oxidation of Ng by GSNO and Its Decomposition Products— Rat brain Ng is susceptible to oxidation by several oxidants resulting in the formation of intramolecular disulfides
Summary
Vol 276, No 5, Issue of February 2, pp. 3098 –3105, 2001 Printed in U.S.A. Glutathiolation of Proteins by Glutathione Disulfide S-Oxide Derived from S-Nitrosoglutathione. We identified glutathione sulfonic acid, glutathione disulfide S-oxide (GS(O)SG), glutathione disulfide S-dioxide, and GSSG as the major decomposition products of GSNO. Each of these compounds and GSNO were tested for their efficacies to modify rat brain neurogranin/RC3 (Ng) and neuromodulin/GAP-43 (Nm). These treatments, as well as those by other oxidants, all resulted in an increase in thiolation of proteins; among them, thiolation of Ng was positively identified by immunoprecipitation These results show that GS(O)SG is one of the most potent glutathiolating agents generated upon oxidative stress. Ng had been positively identified as a target of thiolation under oxidative stress
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