Drosophilalarval epidermal cells only exhibit epidermal aging when they persist to the adult stage

AbstractHolometabolous insects undergo a complete transformation of the body plan from the larval to the adult stage. InDrosophila, this transformation includes replacement of larval epidermal cells (LECs) by adult epidermal cells (AECs). AECs inDrosophilaundergo a rapid and stereotyped aging program where they lose both cell membranes and nuclei. Whether LEC’s are capable of undergoing aging in a manner similar to AECs remains unknown. Here, we address this question in two ways. First, we looked for hallmarks of epidermal aging in larvae that have a greatly extended third instar and/or carry mutations that would cause premature epidermal aging at the adult stage. Such larvae, irrespective of genotype, did not show any of the signs of epidermal aging observed in the adult. Second, we developed a procedure to effect a heterochronic persistence of LECs into the adult epidermal sheet. LECs embedded within the adult epidermal sheet undergo clear signs of epidermal aging; they form multinucleate cells with each other and with the surrounding AECs on the same schedule as the AECs themselves. Our data reveals that epidermal aging in holometabolousDrosophilais a stage-specific phenomenon and that the capacity of LECs to respond to aging signals does exist.Summary StatementWe show thatDrosophilalarval epidermal cells do not age at the larval stage. They do, however, exhibit signs of aging if they persist into the adult.