A "multi-omics" analysis of blood–brain barrier and synaptic dysfunction in APOE4 mice
Abstract
Apolipoprotein E4 (APOE4), the main susceptibility gene for Alzheimer's disease, leads to blood–brain barrier (BBB) breakdown in humans and mice. Remarkably, BBB dysfunction predicts cognitive decline and precedes synaptic deficits in APOE4 human carriers. How APOE4 affects BBB and synaptic function at a molecular level, however, remains elusive. Using single-nucleus RNA-sequencing and phosphoproteome and proteome analysis, we show that APOE4 compared with APOE3 leads to an early disruption of the BBB transcriptome in 2–3-mo-old APOE4 knock-in mice, followed by dysregulation in protein signaling networks controlling cell junctions, cytoskeleton, clathrin-mediated transport, and translation in brain endothelium, as well as transcription and RNA splicing suggestive of DNA damage in pericytes. Changes in BBB signaling mechanisms paralleled an early, progressive BBB breakdown and loss of pericytes, which preceded postsynaptic interactome disruption and behavioral deficits that developed 2–5 mo later. Thus, dysregulated signaling mechanisms in endothelium and pericytes in APOE4 mice reflect a molecular signature of a progressive BBB failure preceding changes in synaptic function and behavior.
Additional Information
We thank Lydia Lin for assistance with snRNA-seq data and Professor Christer Betsholtz and Dr. Liqun He for making available the single-cell RNA-seq data from their published mouse brain vascular atlas. The work of Berislav V. Zlokovic is supported by the National Institutes of Health grants 5P01AG052350 and R01NS034467, in addition to Cure Alzheimer's Fund and the Foundation Leducq Transatlantic Network of Excellence for the Study of Perivascular Spaces in Small Vessel Disease, reference no. 16CVD05. Author contributions: G. Barisano, K. Kisler, and B. Wilkinson contributed to data analysis and interpretation. W. Gilliam and G. Barisano processed the mouse brains and generated single nuclei preparations. G. Barisano and W. Gilliam prepared the snRNA-seq libraries, supported by S.-T. Hung and J.K. Ichida. F. Gao, G. Barisano, S.-T. Hung, K. Kisler, and J.K. Ichida analyzed the RNA-seq data. B. Wilkinson and M.P. Coba performed and analyzed phosphoproteomics, proteomics, and PSD95 interactome data. M.T. Huuskonen and G. Barisano performed MRI scans and analyzed MRI data. A.M. Nikolakopoulou performed all brain tissue assays. A.P. Sagare isolated microvessels and CD brains and performed staining and immunoblotting. Y. Wang performed behavioral tests and FISH analysis. G. Barisano, K. Kisler, B. Wilkinson, and F. Gao contributed to the manuscript writing. K. Kisler helped with final data analysis and careful reading, revision, and editing of the manuscript. M.P. Coba and B.V. Zlokovic designed the RNA-seq and proteomic study, supervised all data analysis and interpretation, and wrote the manuscript.Additional details
- PMCID
- PMC9435921
- Eprint ID
- 117632
- Resolver ID
- CaltechAUTHORS:20221027-402241500.5
- 5P01AG052350
- NIH
- R01NS034467
- NIH
- Cure Alzheimer's Fund
- 16CVD05
- Foundation Leducq
- Created
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2022-11-08Created from EPrint's datestamp field
- Updated
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2022-11-08Created from EPrint's last_modified field