Journal
NATURE COMMUNICATIONS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41467-021-25590-8
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Funding
- National Institutes of Health [R21NS119727, R01NS122782, 5R01HL137112, 5P01HL120840]
- Owens Family Foundation
- National Institutes of Health Basic Cardiovascular Research Training Grant [5T32HL007284]
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Microglia play a role in regulating vascular tone through PANX1-P2RY12 signaling, with interactions between microglia and brain capillaries crucial for neurovascular structure and function. The study highlights the importance of purines released through PANX1 channels in activating microglial P2RY12 receptors, leading to the regulation of vasodilation and blood flow in the brain.
Microglia are involved in debris clearance and synaptic pruning, among other processes. However, their direct interaction with the brain vasculature is less clear. Here, the authors show that capillary-associated microglia (CAMs) regulate vascular tone via PANX1-P2RY12 signalling. Microglia are brain-resident immune cells with a repertoire of functions in the brain. However, the extent of their interactions with the vasculature and potential regulation of vascular physiology has been insufficiently explored. Here, we document interactions between ramified CX3CR1 (+ )myeloid cell somata and brain capillaries. We confirm that these cells are bona fide microglia by molecular, morphological and ultrastructural approaches. Then, we give a detailed spatio-temporal characterization of these capillary-associated microglia (CAMs) comparing them with parenchymal microglia (PCMs) in their morphological activities including during microglial depletion and repopulation. Molecularly, we identify P2RY12 receptors as a regulator of CAM interactions under the control of released purines from pannexin 1 (PANX1) channels. Furthermore, microglial elimination triggered capillary dilation, blood flow increase, and impaired vasodilation that were recapitulated in P2RY12(-/-) and PANX1(-/-) mice suggesting purines released through PANX1 channels play important roles in activating microglial P2RY12 receptors to regulate neurovascular structure and function.
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