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Vol. 298, Issue 2, 744-752, August 2001
Alcohol and Brain Research Laboratory, Department of Pharmacology
(P.J.S., J.D.M., D.K.G., L.R.) and Department of Anesthesiology
(P.J.S.), Texas Tech University Health Sciences Center, Lubbock, Texas
The effect of cytokines, lipopolysaccharide, and ethanol on inducible
nitric-oxide synthase (iNOS) expression was studied in C6 glial cells.
Maximal induced activity, measured by the accumulation of nitrite in
culture medium, occurred following treatment with lipopolysaccharide
and interferon-
. Each cytokine alone was ineffective, whereas an
optimal combination of interleukin-1
, tumor necrosis factor-
, and
interferon- was near maximal, indicating synergistic interactions.
Other combinations caused submaximal activity. Ethanol is known to
suppress iNOS expression in C6 cells induced by a phorbol ester plus
lipopolysaccharide. The current work shows ethanol also suppresses
cytokine-induced iNOS expression and reduces interleukin-1 and tumor
necrosis factor- potency without affecting interferon- potency.
Ethanol-mediated reductions in cytokine-induced iNOS mRNA and
immunoreactive protein levels suggested an effect on gene
transcription. Therefore, C6 cells stably expressing 1846 and 526 base
fragments of the rat iNOS gene promoter fused to a luciferase reporter
gene were prepared and characterized and used to study the effect of
ethanol on iNOS promoter activity. Promoter activity in stable
transfected C6 cells was inhibited by ethanol exposure with a similar
concentration dependence as observed for inhibition of nitrite
production, indicating that iNOS inhibition by ethanol is
transcriptional. Furthermore, ethanol inhibition of the 526 base
fragment activity, which lacks interferon- enhancement of
lipopolysaccharide-induced luciferase activity, confirmed that
interferon--responsive elements do not participate in acute
ethanol-induced inhibition of rat iNOS gene transcription.
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