Heat shock (HS) proteins (HSPs) induce protection against a number of stresses distinct from HS, including reactive oxygen species. In the human premonocytic line U937, we investigated in whole cells the effects of preexposure to HS and exposure to hydrogen peroxide (H202) on mitochondrial membrane potential, mass, and ultrastructure. HS prevented H202-induced alterations in mitochondrial membrane potential and cristae formation while increasing expression of HSPs and the protein product of bcl-2. Protection correlated best with the expression of the 70-kDa HSP, hsp7O. We propose that mitochondria represent a selective target for HS-mediated protection against oxidative injury.
Dendritic cells play a key role in immune responses. There is growing evidence that reactive oxygen species participate in signaling pathways involving nuclear factor (NF)-kappaB, leading to expression of important immune system genes. We found that, unlike H2O2, reactive oxygen species generated by the reaction of oxidase on xanthine induced early phenotypic maturation of dendritic cells by upregulating specific markers CD80, CD83, and CD86 and downregulating mannose receptor-mediated endocytosis. Maturation induced by xanthine oxidase was prevented by allopurinol, an inhibitor of xanthine oxidase activity, and by N-acetylcysteine. The proteasome inhibitor MG-132, which blocks NF-kappaB activation, also inhibited CD86 upregulation, but not endocytosis downregulation by reactive oxygen species. Finally, xanthine-xanthine oxidase enhanced or blocked antigen presentation by dendritic cells depending on whether they had been prepulsed or not with the antigen. Taken together, these results demonstrate that oxidative stress induces phenotypic and functional maturation of dendritic cells, partly through an NF-kappaB-dependent mechanism.
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