Unaltered prion disease in mice lacking developmental endothelial locus-1 (Del-1)

Abstract Progression of prion diseases is driven by the accumulation of prions in the brain. Ablation of microglia or deletion of the eat-me-signal milk-fat globule EGF factor VIII (Mfge8) accelerate prion pathogenesis, suggesting that microglia defends the brain by phagocytosing prions. Like Mfge8, Developmental endothelial locus-1 (Del-1) is a secreted protein that acts as an opsonin bridging phagocytes and apoptotic cells to facilitate phagocytosis. We therefore asked whether Del-1 might play a role in controlling prion pathogenesis. We first determined the expression pattern of Del-1 in mice, and found that the brain expresses the highest level of Del-1. In mouse brains, Del-1 was mainly expressed by neurons. We then assessed the anti-inflammatory and phagocytosis-promoting functions of Del-1 in prion disease, and determined whether Del-1 complements Mfge8 in prion clearance in mice with a C57BL/6J genetic background. We found that Del-1 deficiency did not change prion disease progression and lesion patterns. Also, prion clearance and PrP Sc deposition were unaltered in Del-1 deficient mice. Additionally, prioninduced neuroinflammation was not affected by Del-1 deficiency. We conclude that Del-1 is not a major determinant of prion pathogenesis in this context.