Physiological ramifications of constrained collective cell migration

Constraining collective cell migration in vitro using different types of engineered substrates such as microstructured surfaces or adhesive patterns of different shapes and sizes often leads to the emergence of specific patterns of motion. Recently, analogies between the behavior of cellular assemblies and that of active fluids have enabled significant advances in our understanding of collective cell migration; however, the physiological relevance and potential functional consequences of the resulting migration patterns remain elusive. Here we describe the different patterns of collective cell migration that have been reported in vitro in response to geometrical constraints, explore the in vivo pertinence of the in vitro systems used to impose the geometrical constraints, and discuss the potential physiological ramifications of the collective migration patterns that emerge as a result of physical constraints. We conclude by highlighting key upcoming challenges in the exciting field of constrained collective cell migration.