Genome- and epigenome-wide studies of plasma protein biomarkers for Alzheimer's disease implicate TBCA and TREM2 in disease risk

Robert F Hillary; Danni A Gadd; Daniel L McCartney; Liu Shi; Archie Campbell; Rosie M Walker; Craig W Ritchie; Ian J Deary; Kathryn L Evans; Alejo J Nevado-Holgado; Caroline Hayward; David J Porteous; Andrew M McIntosh; Simon Lovestone; Matthew R Robinson; Riccardo E Marioni

doi:10.1002/dad2.12280

Genome- and epigenome-wide studies of plasma protein biomarkers for Alzheimer's disease implicate TBCA and TREM2 in disease risk

Alzheimers Dement (Amst). 2022 Apr 20;14(1):e12280. doi: 10.1002/dad2.12280. eCollection 2022.

Authors

Robert F Hillary¹, Danni A Gadd¹, Daniel L McCartney¹, Liu Shi², Archie Campbell¹, Rosie M Walker^{1

3}, Craig W Ritchie⁴, Ian J Deary⁵, Kathryn L Evans¹, Alejo J Nevado-Holgado², Caroline Hayward⁶, David J Porteous¹, Andrew M McIntosh^{1

7}, Simon Lovestone^{2

8}, Matthew R Robinson⁹, Riccardo E Marioni¹

Affiliations

¹ Centre for Genomic and Experimental Medicine Institute of Genetics and Cancer, University of Edinburgh Edinburgh UK.
² Department of Psychiatry University of Oxford Oxford UK.
³ Centre for Clinical Brain Sciences, Chancellor's Building, 49 Little France Crescent University of Edinburgh Edinburgh UK.
⁴ Edinburgh Dementia Prevention, Centre for Clinical Brain Sciences University of Edinburgh Edinburgh UK.
⁵ Lothian Birth Cohorts, Department of Psychology University of Edinburgh Edinburgh UK.
⁶ MRC Human Genetics Unit Institute of Genetics and Cancer University of Edinburgh Edinburgh UK.
⁷ Division of Psychiatry, Centre for Clinical Brain Sciences University of Edinburgh Edinburgh UK.
⁸ Neurodegeneration Johnson and Johnson Medical Ltd Wokingham UK.
⁹ Medical Genomics Group Institute of Science and Technology Austria Klosterneuburg Austria.

Abstract

Introduction: The levels of many blood proteins are associated with Alzheimer's disease (AD) or its pathological hallmarks. Elucidating the molecular factors that control circulating levels of these proteins may help to identify proteins associated with disease risk mechanisms.

Methods: Genome-wide and epigenome-wide studies (n_individuals ≤1064) were performed on plasma levels of 282 AD-associated proteins, identified by a structured literature review. Bayesian penalized regression estimated contributions of genetic and epigenetic variation toward inter-individual differences in plasma protein levels. Mendelian randomization (MR) and co-localization tested associations between proteins and disease-related phenotypes.

Results: Sixty-four independent genetic and 26 epigenetic loci were associated with 45 proteins. Novel findings included an association between plasma triggering receptor expressed on myeloid cells 2 (TREM2) levels and a polymorphism and cytosine-phosphate-guanine (CpG) site within the MS4A4A locus. Higher plasma tubulin-specific chaperone A (TBCA) and TREM2 levels were significantly associated with lower AD risk.

Discussion: Our data inform the regulation of biomarker levels and their relationships with AD.

Abstract

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