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Neurology-related protein biomarkers are associated with cognitive ability and brain volume in older age.

Sarah E HarrisSimon R CoxSteven BellRiccardo E MarioniBram P PrinsAlison PattieJanie CorleySusana Muñoz ManiegaMaria Valdés HernándezZoe MorrisSally JohnPaola G BronsonElliot M Tucker-DrobJohn M StarrMark E BastinJoanna Marguerite WardlawAdam S ButterworthIan J Deary
Published in: Nature communications (2020)
Identifying biological correlates of late life cognitive function is important if we are to ascertain biomarkers for, and develop treatments to help reduce, age-related cognitive decline. Here, we investigated the associations between plasma levels of 90 neurology-related proteins (Olink® Proteomics) and general fluid cognitive ability in the Lothian Birth Cohort 1936 (LBC1936, N = 798), Lothian Birth Cohort 1921 (LBC1921, N = 165), and the INTERVAL BioResource (N = 4451). In the LBC1936, 22 of the proteins were significantly associated with general fluid cognitive ability (β between -0.11 and -0.17). MRI-assessed total brain volume partially mediated the association between 10 of these proteins and general fluid cognitive ability. In an age-matched subsample of INTERVAL, effect sizes for the 22 proteins, although smaller, were all in the same direction as in LBC1936. Plasma levels of a number of neurology-related proteins are associated with general fluid cognitive ability in later life, mediated by brain volume in some cases.
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