Oxidative stress pretreatment increases the X-radiation resistance of the nematode Caenorhabditis elegans.

Pre-exposure of wild-type Caenorhabditis elegans to oxygen conferred a protective effect against the lethality imposed by subsequent X-irradiation. In contrast, two mutants (rad-1 and rad-2) that are UV and ionizing radiation hypersensitive but not oxygen sensitive, did not exhibit this adaptive response. To explore the molecular basis of protection, the expression of several key genes was examined using Northern blot analyses to measure mRNA levels. In the wild-type, expression of the heat shock protein genes, hsp16-1 and hsp16-48, increased dramatically after incubation under high oxygen. Expression of two superoxide dismutase genes (sod-1 and sod-3) was relatively unaffected. Unlike the wild-type, the basal levels of these four genes were significantly lower in the rad-1 and rad-2 mutants under atmospheric conditions. These genes were partially induced in response to oxidative stress. These data suggest that at least a portion of the hypersensitive phenotype of rad-1 and rad-2 may be attributed to inappropriate gene expression. Copyright 1999 Elsevier Science B.V.