Endothelial C3a receptor mediates vascular inflammation and BBB permeability during aging.

Dysfunction of immune and vascular systems has been implicated in aging and Alzheimer's disease; however, their interrelatedness remains poorly understood. The complement pathway is a well-established regulator of innate immunity in the brain. Here, we report robust age-dependent increases in vascular inflammation, peripheral lymphocyte infiltration, and blood-brain barrier (BBB) permeability. These phenotypes were subdued by global inactivation and by endothelial-specific ablation of C3ar1. Using an in vitro model of the BBB, we identify intracellular Ca2+ as a downstream effector of C3a-C3aR signaling and a functional mediator of VE-cadherins junction and barrier integrity. Endothelial C3ar1 inactivation also dampened microglia reactivity and improved hippocampal and cortical volumes in the aging brain, demonstrating a crosstalk between brain vasculature dysfunction and immune cell activation and neurodegeneration. Further, prominent C3aR-dependent vascular inflammation is also observed in a tau transgenic mouse model. Our studies suggest that heightened C3a-C3aR signaling through endothelial cells promotes vascular inflammation and BBB dysfunction and contribute to overall neuroinflammation in aging and neurodegenerative disease.