Hydrogen peroxide toxicity may be enhanced by heat shock gene induction in Drosophila

Abstract

Recent evidence suggests that low dose exposure of cells to hydrogen peroxide and/or induction of heat shock protein (HSP) synthesis will render cells resistant to the lethal effects of a subsequent high dose hydrogen peroxide stress. We explored this possibility in the Drosophila melanogasterSchneider tissue culture line 2. It was found that chronic low dose exposure (1 mM H₂O₂for 3 days) resulted in marked potentiation of the toxic effects of a subsequent high dose exposure (50 mM H₂O₂ for 1 h), as assessed by impairment of uridine incorporation and cell proliferation. Cells preexposed to low dose H₂O₂ exhibited enhanced heat shock gene transcription upon exposure to high dose H₂O₂, as compared to cells that did not receive low dose preexposure. Transcriptional induction of the heat shock genes by a mild non-toxic heat shock resulted in marked enhancement of the anti-proliferative effects of a subsequent H₂O₂ exposure. Thus, low dose hydrogen peroxide exposure or mild heating results in subsequent enhancement of high dose hydrogen peroxide toxicity; this effect correlates with enhanced heat shock gene expression. Possible mechanisms are discussed.