The selective reversible S-glutathiolation of specific SERCA (sarcoplasmic/endoplasmic-reticulum Ca2+-ATPase) cysteine residues represents a novel physiologic pathway of NO (nitric oxide)-dependent arterial smooth muscle relaxation [Adachi, Weisbrod, Pimentel, Ying, Sharov, Schöneich and Cohen (2004) Nat. Med. 10, 1200–1207]. This mechanism may be impaired through the irreversible oxidation of functionally important cysteine residues as a consequence of oxidative stress and aging. To establish whether in vivo aging and in vitro oxidation by peroxynitrite result in the loss of such functionally important cysteine residues of SERCA, we have developed and optimized a quantitative method to monitor the oxidation state of the individual SERCA cysteine residues using a maleimide-based fluorescence dye, TG1 (ThioGlo® 1), as a label for cysteine residues that have not been altered by oxidation and are not involved in disulphide bridges. A high efficiency for TG1 labelling of such residues and the chemical structure of cysteine–TG1 adducts were validated by MS analysis of model peptides, model proteins and rat skeletal muscle SERCA1. Tryptic peptides containing 18 out of a total of 24 cysteine residues were identified by HPLC–ESI (electrospray ionization)–MS/MS (tandem MS). Two cysteine residues, at positions 344 and 349, were detected in the form of an internal disulphide bridge, and another 16 were found to be labelled with TG1. Using HPLC–ESI–MS, we quantitatively mapped peroxynitrite oxidation of eight cysteine residues (positions 364, 417, 420, 498, 525, 674, 675 and 938), some of which are involved in the control of SERCA activity. Biological aging resulted in the partial modification of cysteine residues 377, 498, 525, 561, 614, 636, 674, 675, 774 and 938. Neither peroxynitrite exposure nor biological aging affected the apparent SERCA1 ATP affinity. Our data show an age-dependent loss of cysteine residues (approx. 2.8 mol of cysteine/mol of SERCA1), which may be partially responsible for the age-dependent decrease in the specific Ca2+-ATPase activity (by 40%).
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Research Article|
February 24 2006
Quantitative mapping of oxidation-sensitive cysteine residues in SERCA in vivo and in vitro by HPLC–electrospray-tandem MS: selective protein oxidation during biological aging
Victor S. Sharov;
Victor S. Sharov
*Department of Pharmaceutical Chemistry, University of Kansas, 2095 Constant Avenue, Lawrence, KS 66047, U.S.A.
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Elena S. Dremina;
Elena S. Dremina
*Department of Pharmaceutical Chemistry, University of Kansas, 2095 Constant Avenue, Lawrence, KS 66047, U.S.A.
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Nadezhda A. Galeva;
Nadezhda A. Galeva
†Mass Spectrometry Laboratory, University of Kansas, 2095 Constant Avenue, Lawrence, KS 66047, U.S.A.
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Todd D. Williams;
Todd D. Williams
†Mass Spectrometry Laboratory, University of Kansas, 2095 Constant Avenue, Lawrence, KS 66047, U.S.A.
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Christian Schöneich
Christian Schöneich
1
*Department of Pharmaceutical Chemistry, University of Kansas, 2095 Constant Avenue, Lawrence, KS 66047, U.S.A.
1To whom correspondence should be addressed (email [email protected]).
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Publisher: Portland Press Ltd
Received:
July 26 2005
Revision Received:
November 22 2005
Accepted:
November 25 2005
Accepted Manuscript online:
November 25 2005
Online ISSN: 1470-8728
Print ISSN: 0264-6021
The Biochemical Society, London
2006
Biochem J (2006) 394 (3): 605–615.
Article history
Received:
July 26 2005
Revision Received:
November 22 2005
Accepted:
November 25 2005
Accepted Manuscript online:
November 25 2005
Citation
Victor S. Sharov, Elena S. Dremina, Nadezhda A. Galeva, Todd D. Williams, Christian Schöneich; Quantitative mapping of oxidation-sensitive cysteine residues in SERCA in vivo and in vitro by HPLC–electrospray-tandem MS: selective protein oxidation during biological aging. Biochem J 15 March 2006; 394 (3): 605–615. doi: https://doi.org/10.1042/BJ20051214
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