Abstract WP291: Cerebral Amyloid Angiopathy Induces Liver Inflammation in Aged Mice

Abstract

Introduction: Cerebral amyloid angiopathy (CAA) is a chronic age-related neurodegenerative disease, identified by the presence of amyloid-beta (Aβ) deposition within the vasculature of the brain, leading to stroke and progressive cognitive decline. The liver is a key peripheral organ involved in the clearance of excess Aβ in the circulation. However, the role of the brain-liver axis in CAA is unknown. Here, we investigate inflammatory changes in the liver in a murine model of CAA. Methods: Aged (>23 months) male and female Tg-SwDI (CAA) mice harboring Swedish, Dutch, and Iowa mutations of the human amyloid precursor protein were used as a mouse model of CAA along with age-matched wild-type (WT) controls (n=3-7/grp). Hepatic inflammation was analyzed with histological and immunofluorescence imaging. Single cells from liver tissue were isolated and analyzed using flow cytometry. Total RNA was isolated to examine gene expression in the liver using real-time quantitative PCR. Results: Our data showed that CAA increases infiltration of immune cells proximal to liver sinusoids across both sexes compared to WT mice. We found increased macrophages (i.e., F4/80 + cells) in the liver of CAA mice compared to WT controls. Flow cytometry on the liver revealed that female CAA mice had a significant increase in dendritic cells (i.e., CD80 + CD45 + CD11c + cells, *** P <0.001) compared to WT females. Further, we found that Oatp2 , a membrane transporter which mediates hepatocytic uptake of toxic molecules (e.g., Aβ), is associated with sex-specific CAA pathophysiology in the liver. Conclusions: In this study, we found that sex differences may exist in CAA-induced liver inflammation. Further investigations are needed to study how vascular amyloidosis shapes the immune responses and peripheral Aβ clearance in the context of aging and CAA.