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Identification of S-nitrosylated proteins in endotoxin-stimulated RAW264.7 murine macrophages

2004; Elsevier BV; Volume: 12; Issue: 2 Linguagem: Inglês

10.1016/j.niox.2004.11.006

1089-8611

Chengjiang Gao, Hongtao Guo, Junping Wei, Zhiyong Mi, Philip Y. Wai, Paul C. Kuo,

Redox biology and oxidative stress

Nitric oxide (NO) is an omnipresent regulator of cell function in a variety of physiologic and pathophysiologic states. In part, NO exerts its actions by S-nitrosylation of target thiols, primarily in cysteine residues. Delineating the functional correlates of S-nitrosylation can begin with identification of the entire population of S-nitrososylated proteins. Recently, the biotin switch technique was developed to allow a proteomic approach to identification of the "universe" of S-nitrsoylated proteins. In this study using endotoxin-stimulated RAW264.7 murine macrophages, we have utilized the biotin-switch technique and protein sequencing to identify S-nitrosylated proteins in this setting. In contrast to other studies utilizing exogenous sources of NO, our approach utilizes endogenous NO synthesis as the basis for S-nitrosylation. Our results indicate multiple unique proteins not previously identified as S-nitrosylation targets: enolase, pyruvate kinase, elongation factor-1 and -2, plastin-2, FRAG-6, CEM-16, and SMC-6. While the ubiquitous nature of NO argues for some degrees of commonality, S-nitrosylation of unique proteins specific to endotoxin stimulated macrophages suggests regulatory mechanisms for which NO is necessary, but not sufficient.