The Neuroinflammatory Response Associated to Cerebral Amyloid Angiopathy (CAA)
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Abstract
Cerebral amyloid angiopathy (CAA) is characterized by the cerebrovascular deposition of amyloid. The mechanisms underlying the contribution of CAA to neurodegeneration are not fully understood. In this dissertation, there are three main chapters. The first chapter investigates existing evidence regarding the amyloid diversity in CAA and its relation to tau pathology and immune response, as well as the possible contribution of molecular and cellular mechanisms, previously associated with parenchymal amyloid in Alzheimer disease (AD) and AD-related dementias, to the pathogenesis of CAA. The second chapter demonstrates differential glial reactivity and activation associated with early-stage CAA in a mouse model of Familial Danish Dementia (FDD), a neurodegenerative disease characterized by vascular accumulation of Danish amyloid (ADan). We show that early-stage CAA is associated with dysregulation in immune response networks and lipid processing, severe astrogliosis with a neurotoxic A1-astrocytic phenotype, characterized by increased expression of Complement Component 3 (C3), and decreased levels of Triggering Receptor Expressed On Myeloid Cells 2 (Trem2) with no significant reactive microgliosis. Our results also indicate how cholesterol accumulation and Apolipoprotein E (ApoE) are associated with vascular amyloid deposits at the early stages of pathology. Furthermore, we demonstrate A1 astrocytic mediation of Trem2 and microglia homeostasis. In the final chapter, we addressed whether inflammatory stimulus of other cell types are capable of inducing a subtype of neurotoxic astrocytes. Here we show a subtype of C3+ neurotoxic astrocyte are induced by activated endothelial cells that is distinct from astrocytes classically activated by microglia. We show that endothelial activated astrocytes have upregulated expression of A1-astrocytic genes and exhibit a distinctive extracellular matrix remodeling profile. Finally, we demonstrate that endothelial activated astrocytes are Decorin-positive and are associated to vascular amyloid deposits but not parenchymal amyloid plaques in mouse models and AD/CAA patients. These findings show the existence of potentially extensive and subtle functional diversity of C3+-reactive astrocytes.