Abstract
Tau protein is involved in maintaining neuronal structure. In Alzheimer’s disease, small numbers of tau molecules can aggregate to forms oligomers. However, how these oligomers produce changes in neuronal function remains unclear. Previously, oligomers made from full-length human tau were found to have multiple effects on neuronal properties. Here we have cut the tau molecule into two parts: the first 123 amino acids and the remaining 124-441 amino acids. These truncated tau molecules had specific effects on neuronal properties, allowing us to assign the actions of full-length tau to different regions of the molecule. We identified one key target for the effects of tau, the voltage gated sodium channel, which could account for the effects of tau on the action potential. By truncating the tau molecule, we have probed the mechanisms that underlie tau dysfunction, and this increased understanding of tau’s pathological actions, will build towards developing future tau-targeting therapies.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Peer Review Information: Communications Biology thanks Francesco Tamagnini and the other, anonymous, reviewers for their contribution to the peer review of this work. Primary Handling Editors: Christian Wozny and George Inglis. Peer reviewer reports are available.
