Gliovascular transcriptional perturbations in Alzheimer’s disease reveal molecular mechanisms of blood brain barrier dysfunction
-
Published:2024-06-20
Issue:1
Volume:15
Page:
-
ISSN:2041-1723
-
Container-title:Nature Communications
-
language:en
-
Short-container-title:Nat Commun
Author:
İş ÖzkanORCID, Wang XueORCID, Reddy Joseph S.ORCID, Min YuhaoORCID, Yilmaz ElanurORCID, Bhattarai PrabeshORCID, Patel Tulsi, Bergman Jeremiah, Quicksall ZacharyORCID, Heckman Michael G., Tutor-New Frederick Q., Can Demirdogen BirsenORCID, White Launia, Koga ShunsukeORCID, Krause Vincent, Inoue Yasuteru, Kanekiyo TakahisaORCID, Cosacak Mehmet IlyasORCID, Nelson Nastasia, Lee Annie J., Vardarajan BadriORCID, Mayeux Richard, Kouri NaomiORCID, Deniz KaancanORCID, Carnwath Troy, Oatman Stephanie R., Lewis-Tuffin Laura J.ORCID, Nguyen ThuyORCID, , Carrasquillo Minerva M.ORCID, Graff-Radford Jonathan, Petersen Ronald C.ORCID, Jr Jack Clifford R.ORCID, Kantarci Kejal, Murray Melissa E.ORCID, Nho Kwangsik, Saykin Andrew J.ORCID, Dickson Dennis W.ORCID, Kizil CaghanORCID, Allen MarietORCID, Ertekin-Taner NilüferORCID
Abstract
AbstractTo uncover molecular changes underlying blood-brain-barrier dysfunction in Alzheimer’s disease, we performed single nucleus RNA sequencing in 24 Alzheimer’s disease and control brains and focused on vascular and astrocyte clusters as main cell types of blood-brain-barrier gliovascular-unit. The majority of the vascular transcriptional changes were in pericytes. Of the vascular molecular targets predicted to interact with astrocytic ligands, SMAD3, upregulated in Alzheimer’s disease pericytes, has the highest number of ligands including VEGFA, downregulated in Alzheimer’s disease astrocytes. We validated these findings with external datasets comprising 4,730 pericyte and 150,664 astrocyte nuclei. Blood SMAD3 levels are associated with Alzheimer’s disease-related neuroimaging outcomes. We determined inverse relationships between pericytic SMAD3 and astrocytic VEGFA in human iPSC and zebrafish models. Here, we detect vast transcriptome changes in Alzheimer’s disease at the gliovascular-unit, prioritize perturbed pericytic SMAD3-astrocytic VEGFA interactions, and validate these in cross-species models to provide a molecular mechanism of blood-brain-barrier disintegrity in Alzheimer’s disease.
Publisher
Springer Science and Business Media LLC
Reference149 articles.
1. Sweeney, M. D., Sagare, A. P. & Zlokovic, B. V. Blood–brain barrier breakdown in Alzheimer disease and other neurodegenerative disorders. Nat. Rev. Neurol. 14, 133–150 (2018). 2. Wang, D. et al. Relationship between amyloid-β deposition and blood–brain barrier dysfunction in alzheimer’s disease. Front. Cell. Neurosci. 15, 271 (2021). 3. Zlokovic, B. V. Neurovascular pathways to neurodegeneration in Alzheimer’s disease and other disorders. Nat. Rev. Neurosci. 12, 723–738 (2011). 4. Nation, D. A. et al. Blood-brain barrier breakdown is an early biomarker of human cognitive dysfunction. Nat. Med 25, 270–276 (2019). 5. Montagne, A. et al. APOE4 leads to blood-brain barrier dysfunction predicting cognitive decline. Nature 581, 71–76 (2020).
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|