A switch in the mode of tissue growth extends the growth phase of Drosophila wing primordia during early pupal development

Understanding how final organ size is established during development raises two key questions: how organs increase their mass and how they stop growing upon reaching an appropriate size. While organ growth is driven by conserved signaling pathways, the mechanisms underlying growth arrest remain elusive. Studies on Drosophila imaginal wing discs have provided a model whereby final organ size coincides with an arrest of cell proliferation at the end of the larval phase. Here, through 3D reconstruction and volume measurements, we show that wing discs grow continuously throughout the larva-to-pupa (L/P) transition and proceed to growth arrest later during the pupal period. This supplemental growth phase involves a switch at the L/P transition that uncouples proliferation from tissue growth, with an important contribution from Insulin/IGF signaling. These findings challenge the existing model of imaginal wing development and open new avenues for our understanding of growth arrest and organ size determination.