Meningeal lymphatic endothelial cells fulfill scavenger endothelial cell function and cooperate with microglia in waste removal from the brain

Brain lymphatic endothelial cells (BLECs) constitute a group of loosely connected endothelial cells that reside within the meningeal layer of the zebrafish brain without forming a vascular tubular system. BLECs have been shown to readily endocytose extracellular cargo molecules from the brain parenchyma, however, their functional relevance in relation to microglia remains enigmatic. We here compare their functional uptake efficiency for several macromolecules and bacterial components with microglia in a qualitative and quantitative manner in 5-day-old zebrafish embryos. We find BLECs to be significantly more effective in the uptake of proteins, polysaccharides and virus particles as compared to microglia, while larger particles like bacteria are only ingested by microglia but not by BLECs, implying a clear distribution of tasks between the two cell types in the brain area. In addition, we compare BLECs to the recently discovered scavenger endothelial cells (SECs) of the cardinal vein and find them to accept an identical set of substrate molecules. Our data identifies BLECs as the first brain-associated SEC population in vertebrates, and demonstrates that BLECs cooperate with microglia to remove particle waste from the brain.

Automated summary

Brain lymphatic endothelial cells (BLECs) in zebrafish have been found to efficiently uptake extracellular cargo molecules compared to microglia. While BLECs are effective in uptaking proteins, polysaccharides, and virus particles, microglia are better at ingesting larger particles like bacteria, indicating a clear distribution of tasks between the two cell types. Additionally, BLECs show similar substrate acceptance as scavenger endothelial cells (SECs) of the cardinal vein, and cooperate with microglia to remove particle waste from the brain.