Dopamine quinones interact with alpha-synuclein to form unstructured adducts

alpha-Synuclein (alphasyn) fibril formation is considered a central event in the pathogenesis of Parkinson's disease (PD). In recent years, it has been proposed that prefibrillar annular oligomeric beta-sheet-rich species, called protofibrils, rather than fibrils themselves, may be the neurotoxic species. The oxidation products of dopamine (DAQ) can inhibit alphasyn fibril formation supporting the idea that DAQ might stabilize alphasyn protofibrils. In the present work, through different biochemical and biophysical techniques, we isolated and structurally characterized alphasyn/DAQ adducts. Contrary to protofibrils, we demonstrated that alphasyn/DAQ adducts retain an unfolded conformation. We then investigated the nature of the modifications induced on alphasyn by DAQ. Our results indicate that only a small fraction of alphasyn interacts with DAQ in a covalent way, so that non-covalent interaction appears to be the major modification induced by DAQ on alphasyn.