Cancer remains one of the major health challenges in Europe. In recent years, a lot of clinical efforts have focused on targeting developmental signalling pathways for cancer therapy. One of the signalling cascades that has emerged as key regulator of both adult stem cells and cancer (stem) cells is the Wnt pathway.
In human breast tumours, deregulation of different Wnt signalling components is frequently observed, ranging from overexpression of individual Wnt genes to elevated levels of the downstream effector beta-catenin. However, in the absence of apparent dominant genetic mutations, the mechanism behind those alterations is unclear. In fact, very little is known about the precise spatio-temporal regulation of Wnt ligands during tissue homeostasis and disease to begin with.
The long-term goal of our research is to uncover how environmental and intrinsic signals are integrated to control dynamic Wnt expression patterns during both normal development and tumour formation. In this project, we aimed to combine bioinformatics, state-of-the-art genome engineering and an innovative screening approach to identify Wnt-associated enhancers in the mammary gland.