Regenerative capacity in Drosophila imaginal discs is controlled by damage-responsive, maturity-silenced enhancers

Like tissues of many organisms, imaginal discs lose the ability to regenerate as they mature. This loss of regenerative capacity coincides with reduced damage-responsive expression of multiple genes needed for regeneration. Our previous work showed that two such genes, and , are regulated by a single damage-responsive enhancer, which becomes progressively inactivated via Polycomb-mediated silencing as discs mature. Here we explore the generality of this mechanism, and identify numerous damage-responsive, maturity-silenced (DRMS) enhancers, some near genes known to be required for regeneration such as , as well as near genes that we now show are needed for regeneration. Using a novel GAL4-independent tissue ablation system we characterize two DRMS-associated genes, (), which curtails regeneration and CG9752/ (), which promotes it. This mechanism of suppressing regeneration by silencing damage-responsive enhancers at multiple loci can be partially overcome by reducing activity of the chromatin regulator ().