Kavli Affiliate: Sidney Strickland
| Authors: Pradeep K Singh, Elisa Nicoloso Simoes-Pires, Zu-Lin Chen, Daniel Torrente, Marissa Calvano, Anurag Sharma, Sidney Strickland and Erin H Norris
| Summary:
Proteinaceous brain inclusions, neuroinflammation, and vascular dysfunction are common pathologies in Alzheimer’s disease (AD). Vascular deficits include a compromised blood-brain barrier, which can lead to extravasation of blood proteins like fibrinogen into the brain. The interaction of fibrinogen with the amyloid-beta (Aβ) peptide is known to worsen thrombotic and cerebrovascular pathways in AD. Lecanemab, an FDA-approved antibody therapy for AD, shows promising results in facilitating reduction of Aβ from the brain and slowing cognitive decline. Here we show that lecanemab blocks the binding of fibrinogen to Aβ protofibrils, normalizing Aβ/fibrinogen-mediated delayed fibrinolysis and clot abnormalities in vitro and in human plasma. Additionally, we show that lecanemab dissociates the Aβ/fibrinogen complex and prevents fibrinogen from exacerbating Aβ-induced synaptotoxicity in mouse organotypic hippocampal cultures. These findings reveal a possible protective mechanism by which lecanemab may slow disease progression in AD.