The global goal of “GradientSensing” is to understand the mechanistic basis of cellular decision making during directed leukocyte locomotion. Directed locomotion in the mammalian context is mainly guided by molecular cues of the chemokine family. These chemokines are often present as gradients, which attract the cells to their source of production. A cell following such gradients does not only need to interpret the distribution of the guidance cue (it has to “see” and follow the gradient). It also has to integrate many other extrinsic factors like the chemical composition of the connective tissue, its geometry and also the cellular composition of the environment.
These questions are essential for the understanding of immune responses as almost all immunological reactions are triggered and executed by cells that are not “on site” but rather get recruited (e.g. from the bloodstream) to the site of action. The mechanistic and molecular understanding of this recruitment process is not only important for our basic biological understanding but any potential (pharmacological) interference can only be built on such mechanistic knowledge. As the project tries to understand very basic and conserved biological features, the relevance reaches far beyond the investigated physiological context. Also during normal development, regeneration and, importantly, during pathological processes like cancer metastasis, cell undergo (mis)guided migration. Hence, the project has potential to guide future therapeutic approaches.