Large-scale plasma proteomic analysis identifies proteins and pathways associated with dementia risk

痴呆 计算生物学 疾病 比例(比率) 医学 蛋白质组学 生物 神经科学 内科学 地理 遗传学 基因 地图学
作者
Keenan A. Walker,Jingsha Chen,Jingning Zhang,Myriam Fornage,Yunju Yang,Linda Zhou,Morgan E. Grams,Adrienne Tin,Natalie Daya,Ron C. Hoogeveen,Aozhou Wu,Kevin Sullivan,Peter Ganz,Scott L. Zeger,Elías F. Guðmundsson,Valur Emilsson,Lenore J. Launer,Lori L. Jennings,Vilmundur Guðnason,Nilanjan Chatterjee
出处
期刊:Nature Aging [Nature Portfolio]
卷期号:1 (5): 473-489 被引量:202
标识
DOI:10.1038/s43587-021-00064-0
摘要

The plasma proteomic changes that precede the onset of dementia could yield insights into disease biology and highlight new biomarkers and avenues for intervention. We quantified 4,877 plasma proteins in nondemented older adults in the Atherosclerosis Risk in Communities cohort and performed a proteome-wide association study of dementia risk over five years (n = 4,110; 428 incident cases). Thirty-eight proteins were associated with incident dementia after Bonferroni correction. Of these, 16 were also associated with late-life dementia risk when measured in plasma collected nearly 20 years earlier, during mid-life. Two-sample Mendelian randomization causally implicated two dementia-associated proteins (SVEP1 and angiostatin) in Alzheimer’s disease. SVEP1, an immunologically relevant cellular adhesion protein, was found to be part of larger dementia-associated protein networks, and circulating levels were associated with atrophy in brain regions vulnerable to Alzheimer’s pathology. Pathway analyses for the broader set of dementia-associated proteins implicated immune, lipid, metabolic signaling and hemostasis pathways in dementia pathogenesis. Walker et al. report a proteome-wide association study that identifies 38 candidate proteins in nondemented older adults that are associated with future dementia risk. Pathway analysis of these proteins implicates immune, lipid, metabolic signaling and hemostasis pathways in dementia pathogenesis.
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