Three-dimensional ultrastructure of the brain pericyte-endothelial interface.
Sharon OrnelasAndrée-Anne BerthiaumeStephanie K BonneyVanessa Coelho-SantosRobert G UnderlyAnna KremerChristopher J GuérinSaskia LippensAndy Y ShihPublished in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2021)
Pericytes and endothelial cells share membranous interdigitations called "peg-and-socket" interactions that facilitate their adhesion and biochemical crosstalk during vascular homeostasis. However, the morphology and distribution of these ultrastructures have remained elusive. Using a combination of 3D electron microscopy techniques, we examined peg-and-socket interactions in mouse brain capillaries. We found that pegs extending from pericytes to endothelial cells were morphologically diverse, exhibiting claw-like morphologies at the edge of the cell and bouton-shaped swellings away from the edge. Reciprocal endothelial pegs projecting into pericytes were less abundant and appeared as larger columnar protuberances. A large-scale 3D EM data set revealed enrichment of both pericyte and endothelial pegs around pericyte somata. The ratio of pericyte versus endothelial pegs was conserved among the pericytes examined, but total peg abundance was heterogeneous across cells. These data show considerable investment between pericytes and endothelial cells, and provide morphological evidence for pericyte somata as sites of enriched physical and biochemical interaction.
Keyphrases
- endothelial cells
- blood brain barrier
- high glucose
- electron microscopy
- drug delivery
- vascular endothelial growth factor
- single cell
- electronic health record
- induced apoptosis
- mental health
- escherichia coli
- signaling pathway
- mesenchymal stem cells
- endoplasmic reticulum stress
- cell proliferation
- white matter
- pseudomonas aeruginosa
- data analysis
- bone marrow
- oxidative stress
- antibiotic resistance genes