Lay Summary

The central nervous system (CNS) consists of the brain, spinal cord and retina (eye). It controls most functions of the body and mind. Despite the importance of these tissues are made up of only two major cell types: neurons and glia. Most researchers focus on neurons because they are the electrical wires passing signals to perform daily functions. However, glial cells outnumber neurons in the CNS and they support neurons to make sure they are healthy and function properly. To make up the CNS, neurons and glia need to meet during development and make specific partnerships that last a lifetime. Glial cells have special shapes so that they can connect to the neurons. Changes in glial shape can make neurons sick and potentially lead to disease. I aim to understand how glial cells get their shape, how glia interact to support neurons and how this relationship breaks down during disease.

In order to really understand how glia get their shapes and support neurons the best way is to watch it happen in a living animal during their development. The retina is a really simple CNS tissue, if compared to the brain. I will use the zebrafish to study this very interesting problem as we can see inside it during early development, its retina has neurons and glia just like humans, and we can follow individual cells using fluorescent proteins. Thus, using microscopy I can watch how neurons and glia behave to meet and make their connections in a living fish. My research programme will tell us how glia find their partner neurons, which molecules are important for glia to get their shapes and how they make sure our CNS function normally. These answers will be very important for understanding how our retinas and brains are built in the first place. If we understand how glia shape is set up then maybe it will be the same molecules to maintain the connections, so this will also be very important for keeping each part of the CNS healthy as we age.