Delamination of chick cephalic neural crest cells requires an MMP14-dependent downregulation of Cadherin-6B.

Matrix Metalloproteinases (MMPs) are known for their role in matrix remodeling via their catalytic activities in the extracellular space. Interestingly, these enzymes can also play less expected roles in cell survival, polarity and motility via other substrates (e.g. receptors, chemokines), through an intracellular localization (e.g. the nucleus) or via non-catalytic functions. Most of these unconventional functions are yet to be functionally validated in a physiological context. Here, we used the delamination of the cephalic Neural Crest (NC) cells of the chicken embryo, a well described experimental model of epithelial-mesenchymal transition (EMT), to study the in vivo function of MMP14 (a.k.a MT1-MMP). MMP14 is a transmembrane MMP known for its importance in cell invasion and often associated with poor prognosis in cancer. We found that MMP14 is expressed and required for cephalic NC delamination. More specifically, MMP14 is necessary for the downregulation of Cadherin-6B and a co-inhibition of Cadherin-6B and MMP14 expressions is sufficient to restore NC delamination. Cadherin-6B is normally repressed by Snail2. Surprisingly, in MMP14 knockdown this lack of Cadherin-6B repression occurs in the context of a normal expression and nuclear import of Snail2. We further show that MMP14 is not detected in the nucleus and that Snail2 and MMP14 do not physically interact. These data reveals that a yet to be identified MMP14-dependent signaling event is required for the Snail2-dependent repression of Cadherin-6B. In conclusion, this work provides an in vivo example of atypical regulation of Cadherins by an MMP which emphasizes the importance and diversity of non-canonical functions of MMPs.