Proteomic networks of gray and white matter reveal tissue‐specific changes in human tauopathy

Author:

Johnson Ashlyn G.123ORCID,Dammer Eric B.24,Webster James A.23,Duong Duc M.24,Seyfried Nicholas T.24,Hales Chadwick M.23

Affiliation:

1. Neuroscience Graduate Program, Laney Graduate School Emory University Atlanta Georgia USA

2. Center for Neurodegenerative Disease Emory University School of Medicine Atlanta Georgia USA

3. Department of Neurology Emory University School of Medicine Atlanta Georgia USA

4. Department of Biochemistry Emory University School of Medicine Atlanta Georgia USA

Abstract

AbstractObjectiveTo define tauopathy‐associated changes in the human gray and white matter proteome.MethodWe applied tandem mass tagged labeling and mass spectrometry, consensus, and ratio weighted gene correlation network analysis (WGCNA) to gray and white matter sampled from postmortem human dorsolateral prefrontal cortex. The sampled tissues included control as well as Alzheimer's disease, corticobasal degeneration, progressive supranuclear palsy, frontotemporal degeneration with tau pathology, and chronic traumatic encephalopathy.ResultsOnly eight proteins were unique to gray matter while six were unique to white matter. Comparison of the gray and white matter proteome revealed an enrichment of microglial proteins in the white matter. Consensus WGCNA sorted over 6700 protein isoforms into 46 consensus modules across the gray and white matter proteomic networks. Consensus network modules demonstrated unique and shared disease‐associated microglial and endothelial protein changes. Ratio WGCNA sorted over 6500 protein ratios (white:gray) into 33 modules. Modules associated with mitochondrial proteins and processes demonstrated higher white:gray ratios in diseased tissues relative to control, driven by mitochondrial protein downregulation in gray and upregulation in white.InterpretationThe dataset is a valuable resource for understanding proteomic changes in human tauopathy gray and white matter. The identification of unique and shared disease‐associated changes across gray and white matter emphasizes the utility of examining both tissue types. Future studies of microglial, endothelial, and mitochondrial changes in white matter may provide novel insights into tauopathy‐associated changes in human brain.

Funder

National Institutes of Health

U.S. Department of Defense

Publisher

Wiley

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