Researchers have identified a potential biomarker of Parkinson's disease progression. According to the new study, patients with a slow progression of the pathology would have a significant increase in the levels of a molecule called ecto-GPR37 in the cerebrospinal fluid.
A team of researchers has uncovered a groundbreaking mechanism in the formation of harmful protein aggregates that lead to neurodegenerative diseases such as Parkinson's Disease. The team, led by Professor Norifumi Shioda and Associate Professor Yasushi Yabuki, identified for the first time that unique RNA structures called G-quadruplexes (G4s) play a central role in promoting the aggregation of alpha-synuclein, a protein associated with neurodegeneration. By demonstrating that inhibiting G4 assembly could potentially prevent the onset of synucleinopathies, this discovery positions G4 as a promising target for early intervention in these diseases.
Scientists have recreated the growth of Lewy bodies in human neurons and followed their formation to gain important insight into why and how they form. Critically, they find that immune challenge is important for this process, identifying a previously unknown link between the immune system and neurological disease.
A research team has revealed that a molecule in the brain -- ophthalmic acid -- unexpectedly acts like a neurotransmitter similar to dopamine in regulating motor function, offering a new therapeutic target for Parkinson's and other movement diseases.