Post-stroke Hippocampal Neurogenesis is Impaired by Microvascular Dysfunction and PI3K Signaling in Cerebral Amyloid Angiopathy

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2024 Oct 11

PMID 39392753

Authors

Olivia M Osborne

Manav Daftari

Oandy Naranjo

Adarsh N Johar

Samantha Brooks

Brett M Colbert

Silvia Torices

Elizabeth Lewis

Jet Sendaydiego

Gillian Drexler

Malek Bashti

Alexander V Margetts

Luis M Tuesta

Christian Mason

Daniel Bilbao

Regina Vontell

Anthony J Griswold

Derek M Dykxhoorn

Michal Toborek

Affiliations

Soon will be listed here.

Abstract

Ischemic stroke and cerebral amyloid angiopathy (CAA) pose significant challenges in an aging population, particularly in post-stroke recovery. Using the 5xFAD mouse model, we explore the relationship between CAA, ischemic stroke, and tissue recovery. We hypothesize that amyloid-beta accumulation worsens stroke outcomes by inducing blood-brain barrier (BBB) dysfunction, leading to impaired neurogenesis. Our findings show that CAA exacerbates stroke outcomes, with mice exhibiting constricted BBB microvessels, reduced cerebral blood flow, and impaired tissue recovery. Transcriptional analysis shows that endothelial cells and neural progenitor cells (NPCs) in the hippocampus exhibit differential gene expression in response to CAA and stroke, specifically targeting the phosphatidylinositol 3-kinase (PI3K) pathway. In vitro experiments with human NPCs validate these findings, showing that disruption of the CXCL12-PIK3C2A-CREB3L2 axis impairs neurogenesis. Notably, PI3K pathway activation restores neurogenesis, highlighting a potential therapeutic approach. These results suggest that CAA combined with stroke induces microvascular dysfunction and aberrant neurogenesis through this specific pathway.

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