Superoxide-induced Stimulation of Protein Kinase C via Thiol Modification and Modulation of Zinc Content

Knapp, Lauren T.; Klann, Eric

doi:10.1074/jbc.m002043200

Cited by 183 publications

(137 citation statements)

References 51 publications

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“…Although cysteine oxidation inhibits the function of some proteins, in others it promotes activation. In the case of protein kinase C, oxidation by a superoxide stimulates enzymatic activity by thiol oxidation and the subsequent release of zinc from a cysteine-rich region in the amino terminus (50). Thus by modifying one amino acid in a reversible manner, cells are able to modulate signaling.…”

Section: Discussionmentioning

confidence: 99%

The Requirement of Reversible Cysteine Sulfenic Acid Formation for T Cell Activation and Function

Michalek

Nelson

Holbrook

et al. 2007

The Journal of Immunology

101

102

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Reactive oxygen intermediates (ROI) generated in response to receptor stimulation play an important role in mediating cellular responses. We have examined the importance of reversible cysteine sulfenic acid formation in naive CD8+ T cell activation and proliferation. We observed that, within minutes of T cell activation, naive CD8+ T cells increased ROI levels in a manner dependent upon Ag concentration. Increased ROI resulted in elevated levels of cysteine sulfenic acid in the total proteome. Analysis of specific proteins revealed that the protein tyrosine phosphatases SHP-1 and SHP-2, as well as actin, underwent increased sulfenic acid modification following stimulation. To examine the contribution of reversible cysteine sulfenic acid formation to T cell activation, increasing concentrations of 5,5-dimethyl-1,3-cyclohexanedione (dimedone), which covalently binds to cysteine sulfenic acid, were added to cultures. Subsequent experiments demonstrated that the reversible formation of cysteine sulfenic acid was critical for ERK1/2 phosphorylation, calcium flux, cell growth, and proliferation of naive CD8+ and CD4+ T cells. We also found that TNF-α production by effector and memory CD8+ T cells was more sensitive to the inhibition of reversible cysteine sulfenic acid formation than IFN-γ. Together, these results demonstrate that reversible cysteine sulfenic acid formation is an important regulatory mechanism by which CD8+ T cells are able to modulate signaling, proliferation, and function.

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Section: Discussionmentioning

confidence: 99%

The Requirement of Reversible Cysteine Sulfenic Acid Formation for T Cell Activation and Function

Michalek

Nelson

Holbrook

et al. 2007

The Journal of Immunology

101

102

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“…Knapp and Klann (2000) had reported an • O 2 -stimulated PKC activation via thiol oxidation. On the other hand studies on the multicomponent phagocyte 7-9 and endothelial NAD(P)H oxidase (Fontayne et al, 2002, Guzik et al 2002 Treatment of vessels from diabetic animals with SOD improved endothelium-dependent relaxations (Tesfamariam et al, 1992) and the use of vitamin C in patients with non-insulin (NIDDM) and insulin-dependent diabetes mellitus (IDDM), increased the endotheliumdependent vasodilation in the forearm circulation (Ting et al, 1996;Timimi et al, 1998).…”

Section: Discussionmentioning

confidence: 99%

Superoxide as a Messenger of Endothelial Function

Ullrich

Bachschmid²

2000

Biochemical and Biophysical Research Communications

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“…The H 2 O 2 -dependent activation of the MAPK pathway can also activate antioxidant enzymes or other detoxifying genes like GCLC (glutamate-cysteine ligase, catalytic subunit) via the antioxidant response elements found in the promoter regions of these enzymes . PKC enzyme activity can also be increased by exposure to O 2 À , inducing disulfide bond formation and release of zinc from the cysteine-rich region of the enzyme (Knapp and Klann, 2000). In addition to the redox state altering kinase activity, regulation of protein tyrosine phosphatases and low molecular weight phosphotyrosine phosphatases by ROS has been extensively studied (Chiarugi et al, 2003).…”

Section: Intracellular Redox State and Cell Cycle Proteinsmentioning

confidence: 99%

A redox cycle within the cell cycle: ring in the old with the new

2006

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In recent years, the intracellular oxidation-reduction (redox) state has gained increasing attention as a critical mediator of cell signaling, gene expression changes and proliferation. This review discusses the evidence for a redox cycle (i.e., fluctuation in the cellular redox state) regulating the cell cycle. The presence of redox-sensitive motifs (cysteine residues, metal co-factors in kinases and phosphatases) in several cell cycle regulatory proteins indicate periodic oscillations in intracellular redox state could play a central role in regulating progression from G 0 /G 1 to S to G 2 and M cell cycle phases. Fluctuations in the intracellular redox state during cell cycle progression could represent a fundamental mechanism linking oxidative metabolic processes to cell cycle regulatory processes. Proliferative disorders are central to a variety of human pathophysiological conditions thought to involve oxidative stress. Therefore, a more complete understanding of redox control of the cell cycle could provide a biochemical rationale for manipulating aberrant cell proliferation.

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Superoxide-induced Stimulation of Protein Kinase C via Thiol Modification and Modulation of Zinc Content

Cited by 183 publications

References 51 publications

The Requirement of Reversible Cysteine Sulfenic Acid Formation for T Cell Activation and Function

The Requirement of Reversible Cysteine Sulfenic Acid Formation for T Cell Activation and Function

Superoxide as a Messenger of Endothelial Function

A redox cycle within the cell cycle: ring in the old with the new

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