ATP Kinetically Modulates Pathogenic Tau Fibrillations
2020-03-16T12:00:06Z (GMT) by
Advanced understanding of Alzheimer’s disease (AD) and several tauopathies over the past decades indicates the pathological importance of tau aggregation in these diseases. Herein, we demonstrated that adenosine triphosphate (ATP), a highly charged anionic molecule abundant in the cytosol of cells, catalyses tau fibrillation via supramolecular complexation with basic residues of tau. Our results showed that ATP attracts multiple lysine residues of four-repeat domain of tau (K18), thereby immediately forming dimers which convert to nuclei to accelerate fibril elongation. However, ATP was not directly incorporated in the K18 fibrils suggesting a catalytic role of ATP in K18 fibrillation. We also characterized the correlation between ATP dyshomeostasis and tau aggregation in the cellular environment. Our multiple biophysical approaches, including native mass spectrometry (MS), small-angle X-ray scattering (SAXS), and molecular dynamics (MD) simulation, provided insights into the molecular-level influence of ATP on the structural change and fibrillation of tau.