Matrix metalloproteinase 1 modulates invasive behavior of tracheal branches during ingression into Drosophila flight muscles

Abstract

SUMMARYTubular networks like the vasculature extend branches throughout the bodies of animals, but how developing vessels interact with and invade tissues is not well understood. We investigated the underlying mechanisms using the developing tracheal tube network of Drosophila indirect flight muscles (IFMs) as a model. Live imaging revealed that tracheal sprouts invade IFMs directionally with growth-cone-like structures at branch tips. Ramification inside IFMs proceeds until tracheal branches fill the myotube. However, individual tracheal cells occupy largely separate territories, possibly mediated by cell-cell repulsion. Matrix metalloproteinase 1 (MMP1) is required in tracheal cells for normal invasion speed and for the dynamic organization of growth-cone-like branch tips. MMP1 remodels the Collagen IV-containing matrix around branch tips and promotes degradation of Branchless FGF in cultured cells. Thus, tracheal-derived MMP1 may play dual roles in sustaining branch invasion by modulating ECM properties as well as by shaping the distribution of the FGF chemoattractant.