Branch extension and pruning share the same regulatory module in the developing Drosophila airways
Discuss this preprint
Start a discussion What are Sciety discussions?Listed in
This article is not in any list yet, why not save it to one of your lists.Abstract
Branched tubular organs represent a common solution to the problem of fluid transport in large animals. The growth of new branches has been extensively studied but the regulation of branch pruning remains underexplored. Here, we investigate branch removal in the stereotyped branching patterns of the developing Drosophila airways. After progenitor invagination, the tips of the distal airways generate a stereotyped branching pattern in each central metameric unit. An intriguing exception in the repeating patterns is the lack of branches targeting the visceral mesoderm (visceral primary branch, VB) in the third and nineth metameres. We show that these branches initially form but the localized expression of the pro-apoptotic gene reaper and resultant apoptosis prune them. We reveal that VB3/9 pruning entails four sequential programs. First, a common distal outgrowth program promotes budding and extension of the primary branches, including VB3 and 9. Second, a VB identity program is established representing the ground state of all primary branches. Third, the Bithorax-Complex transcription factors define metameric identities and interfere with the VB program to induce reaper and apoptosis specifically in VB3/9 in a concentration dependent manner. Finally, the default VB cell identity is transformed by extrinsic BMP/Decapentaplegic and WNT/Wingless into more derived primary branch identities and spared from pruning in metamers 3 and 9. Our results demonstrate that molecular and genetic circuits promoting branch emergence and extension can be regionally modified and deployed also for branch pruning.
Author summary
Many of our internal organs like the lung, kidney and various glands are composed of epithelial tubes. The function of these organs is sustained by the morphologies of the constituting tubes. The formation of distinct branching patterns in tubular networks including regional variegations can be accomplished by branch ramification and branch pruning. Extensive studies of tube ramification and extension showed that they are typically regulated by extrinsic guidance cues. In contrast to branch extension, branch maintenance and removal is much less understood. Here, we identify a program that intrinsically promotes apoptosis to prune specific branches in the developing Drosophila airways. Intriguingly, the branch extension program is diverted to a branch pruning program. Activation of the branch outgrowth program is prerequisite for both branch extension and pruning. The Hox gene expression code that characterizes regional cell identities along the body axes intrinsically interferes with the branch extension program of visceral primary branches (VB) targeting the visceral muscles. This results in VB pruning only in metameres 3 and 9, where extrinsic WNT and BMP guidance cues direct towards distal branch identities that are spared from apoptotic pruning. Similar interplay of branching and pruning programs may operate in sculpting our lung and vasculature.
