During brain development, billions of neuron nerve cells must find accurate pathways in the brain in order to form trillions of neuronal circuits enabling us to enjoy cognitive, sensory and emotional wellbeing.
To achieve this remarkable precision, migrating neurons use special protein receptors that sense the environment around them and guide the way so these neurons stay on the right path. In a new study published in Cell, researchers from Bar-Ilan University and Tel Aviv University in Israel, EMBL Grenoble in France and University of Exeter in the UK report on their discovery of the intricate molecular mechanism that allows a key guidance receptor, “Robo”, to react to signals in its environment.
One of the most important protein signaling systems that guide neurons consists of the cell surface receptor “Robo” and its external guidance cue, “Slit”. “Slit and Robo can be identified in virtually all animals with a nervous system, from a 1 mm-long nematode all the way to humans,” explains researcher Yarden Opatowsky, associate professor and head of the Laboratory of Structural Biology at Bar-Ilan University and who led the research.
>Read more on the European Synchrotron website
Image: A surface representation of the crystal structure of the extracellular portion of human Robo2. The yellow region represents the domain where dimerisation takes place. Here, we see it blocked by the other domains, meaning dimerisation cannot take place and that Robo2 is inactivated.
Credit: Y. Opatowsky.