Publish Date:
Friday, February 3, 2023 - 16:15
Study finds link between blood components and brain disorders
A Mater Research study, led by TRI-based researchers, has identified a previously unknown genetic link between platelets and Parkinson’s Disease, with findings published in international journal Cell Genomics last week.
The study, led by Mater Research and The University of Queensland’s Dr Yuanhao Yang and Associate Professor Jake Gratten, analysed data from large-scale genetic studies to improve understanding of cause and effect relationships between blood measures and common neurological and psychiatric disorders.
Lead author Dr Yang said the research came about following reports of associations between a range of different blood measures and risk of stroke, multiple sclerosis and depression.
“These results sparked interest in developing blood-based biomarkers for common brain disorders, but it was unclear whether there was a genetic basis to these relationships,” Dr Yang said.
“Our study identified a broad landscape of genetic overlap between blood cell measures and 11 neurological and psychiatric disorders.
“One notable finding was a cause and effect relationship between increased platelet distribution width and risk for Parkinson’s Disease, suggesting that platelet parameters could be potential biomarkers for early detection of Parkinson’s Disease.
“We also identified numerous genes shared by specific blood cell measures and brain disorders, some of which are targets of drugs that are approved for other conditions – this represents potential for repurposing those drugs for common brain disorders.”
Senior author A/Prof Gratten said the findings “provide a foundation for future work to improve prevention and prognosis of common neurological diseases and psychiatric disorders”.
The study was supported by Mater Foundation and the Australian National Health and Medical Research Council (NHMRC), and involved researchers from Mater Research, The University of Queensland, University of Tasmania, Queensland University of Technology, Aarhus University and the Broad Institute of MIT and Harvard.
The study was published in Cell Genomics.
This article has been republished from the Mater website.