Yorkie controls tube length and apical barrier integrity in the developing Drosophila airways

Epithelial organ size and shape depend on cell shape changes, cell-matrix communication and apical membrane growth. The Drosophila embryonic tracheal network is an excellent model to study these processes. Here, we show that the transcriptional co-activator of the Hippo pathway, Yorkie (YAP in vertebrates), plays distinct roles in the developing Drosophila airways. Yorkie exerts a cytoplasmic function by binding Drosophila Twinstar, the orthologue of the vertebrate actin-severing protein Cofilin, to regulate F-actin levels and apical cell membrane size, which are required for proper tracheal tube elongation. Second, Yorkie controls water-tightness of tracheal tubes by transcriptional regulation of the enzyme δ-aminolevulinate synthase (Alas). We conclude that Yorkie has a dual role in tracheal development to ensure proper tracheal growth and functionality.