Tau Structures: From Proteopathic to Protective
Tau protein helps to stabilize the internal structure of neurons in ways that are important for neuronal function. However, the conversion of tau from a normal structural state into pathological assemblies is associated with Alzheimer’s disease (AD). Pathological tau structures include amyloid fibers, and a smaller species of tau, called an oligomer, which is thought to promote the spread of pathological tau assemblies throughout the brain. The overarching aim of my research is to develop methods and agents that block the formation and spread of toxic tau conformations. Using the atomic structures of the tau amyloid fiber core determined by myself and members of our lab using a new technique called micro-electron diffraction I am designing inhibitors to target the tau amyloid structure. Furthermore I am working to use an analogous approach to solve the structure of the tau oligomer. I am also pursuing an orthogonal inhibitor design strategy, which consists of studying protective mutations I've identified that are capable of suppressing tau assembly into toxic conformations. Using this approach, I hope to discover additional classes of evolutionarily-inspired tau inhibitors that will complement my structure-based design efforts.