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Abstract
Yeast FLP recombinase was used in a binary transgenic system (“FLP-OUT”) to allow induced overexpression of catalase and/or Cu/Zn-superoxide dismutase (Cu/ZnSOD) in adult Drosophila melanogaster. Expression of FLP recombinase was driven by the heat-inducible hsp70 promoter. Once expressed, FLP catalyzed the rearrangement and activation of a target construct in which expression of catalase or Cu/ZnSOD cDNAs was driven by the constitutive actin5C promoter. In this way a brief heat pulse (120 or 180 min, total) of young adult flies activated transgene expression for the rest of the life span. FLP-OUT allows the effects of induced transgene expression to be analyzed in control (no heat pulse) and experimental (heat pulse) populations with identical genetic backgrounds. Under the conditions used, the heat pulse itself always had neutral or slightly negative effects on the life span. Catalase overexpression significantly increased resistance to hydrogen peroxide but had neutral or slightly negative effects on the mean life span. Cu/ZnSOD overexpression extended the mean life span up to 48%. Simultaneous overexpression of catalase with Cu/ZnSOD had no added benefit, presumably due to a preexisting excess of catalase. The data suggest that oxidative damage is one rate-limiting factor for the life span of adult Drosophila. Finally, experimental manipulation of the genetic background demonstrated that the life span is affected by epistatic interactions between the transgene and allele(s) at other loci.
ACKNOWLEDGMENTS
We thank Erik T. Bieschke for generating transgenic lines; Bill Orr for providing constructs and advice; Jim Curtsinger for generating the Mortal 1.0 program; Agata Smogorszewska for helping characterize the FLP lines; Marc Tatar, Simon Tavare, Loren Smith, Tuck Finch, Pam Larsen, and Anna McCormick for helpful discussions; and Marc Tatar and Michael Rose for critical reading of the manuscript.
This research was supported by a grant from the Department of Health and Human Services (AG11644).