Abstract
Reduced insulin/IGF signaling extends lifespan in diverse species, including Drosophila melanogaster where the genome encodes seven insulin-like peptides (dilp1-7). Of these, reduced dilp2 expressed in the brain has been associated with longevity assurance when over-expression of dfoxo in fat bodies extends lifespan. Here, we show that the insulin-regulated transcription factor dFOXO positively modulates dilp6 mRNA in adult fat body. Over-expression of dilp6 in adult fat body extends lifespan and increases longevity-associated metabolic phenotypes. Adult fat body dilp6 expression represses dilp2 and dilp5 mRNA in the brain, and the secretion of DILP2 into the hemolymph. The longevity benefit of expressing dfoxo in fat body, and the nonautonomous effect of fat body dfoxo upon brain dilp expression, is blocked by simultaneously repressing dilp6 by RNAi in fat body. dilp6 thus appears to bridge dFOXO, adipose tissue and brain endocrine function to regulate Drosophila longevity.
Highlights
Insulin-like peptides are evolutionary conserved proteins that regulate growth, metabolism, reproduction, and longevity
Dilp2 and dilp5 mRNA of the brain were repressed, and hemolymph DILP2 was significantly reduced as measured by an enzyme immunoassay. dilp6 RNAi in fat body blocks the longevity benefit typically observed when dfoxo is overexpressed in fat body, and this dilp6 RNAi likewise blocks the negative effect of fat body expressed dfoxo upon dilp2 mRNA
As a target of dFOXO in adult fat body, dilp6 may mediate longevity assurance conferred by over-expressing dfoxo
Summary
Reduced insulin ⁄ IGF signaling extends lifespan in diverse species, including Drosophila melanogaster where the genome encodes seven insulin-like peptides (dilp). Of these, reduced dilp expressed in the brain has been associated with longevity assurance when over-expression of dfoxo in fat bodies extends lifespan. We show that the insulin-regulated transcription factor dFOXO positively modulates dilp mRNA in adult fat body. Over-expression of dilp in adult fat body extends lifespan and increases longevity-associated metabolic phenotypes. Adult fat body dilp expression represses dilp and dilp mRNA in the brain, and the secretion of DILP2 into the hemolymph. Dilp appears to bridge dFOXO, adipose tissue and brain endocrine function to regulate Drosophila longevity.
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