Abstract
Reactive free radicals have been implicated in mediating signal transduction by a variety of stimuli. We have investigated the role of p21ras in mediating free radical signaling. Our studies revealed that signaling by oxidative agents which modulate cellular redox status, such as H2O2, hemin, Hg2+, and nitric oxide was prevented in cells in which p21ras activity was blocked either through expression of a dominant negative mutant or by treating with a farnesyltransferase inhibitor, as assessed by NF-kappa B binding activity. Furthermore, the NF-kappa B response to these oxidative stress stimuli was found to be enhanced when cells from the human T cell line, Jurkat, were pretreated with L-buthionine-(S,R)-sulfoximine, an inhibitor of glutathione synthesis. We directly assayed p21ras and mitogen-activated protein kinase activities in Jurkat cells and found both of these signaling molecules to be activated in cells treated with the redox modulating agents. Blocking glutathione synthesis made cells 10- to 100-fold more sensitive to these agents. Finally, using recombinant p21ras in vitro, we found that redox modulators directly promoted guanine nucleotide exchange on p21ras. This study suggests that direct activation of p21ras may be a central mechanism by which a variety of redox stress stimuli transmit their signal to the nucleus.
Highlights
Free radicals have been shown to play important roles in carcinogenesis by directly damaging DNA and acting as tumor promoters [1,2,3,4]
Our studies revealed that signaling by oxidative agents which modulate cellular redox status, such as H2O2, hemin, Hg2؉, and nitric oxide was prevented in cells in which p21ras activity was blocked either through expression of a dominant negative mutant or by treating with a farnesyltransferase inhibitor, as assessed by NF-B binding activity
Requirement of p21ras for Free Radical and Redox Signaling—We investigated the role of p21ras in mediating NF-B transcription factor activation by reactive free radicals and redox modulators
Summary
Free radicals have been shown to play important roles in carcinogenesis by directly damaging DNA and acting as tumor promoters [1,2,3,4]. Our studies revealed that signaling by oxidative agents which modulate cellular redox status, such as H2O2, hemin, Hg2؉, and nitric oxide was prevented in cells in which p21ras activity was blocked either through expression of a dominant negative mutant or by treating with a farnesyltransferase inhibitor, as assessed by NF-B binding activity. The NF-B response to these oxidative stress stimuli was found to be enhanced when cells from the human T cell line, Jurkat, were pretreated with L-buthionine-(S,R)sulfoximine, an inhibitor of glutathione synthesis.
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