Piezo1 is a mechanosensor channel in central nervous system capillaries

OF Harraz, NR Klug, AJ Senatore… - Circulation …, 2022 - Am Heart Assoc
Circulation research, 2022Am Heart Assoc
Capillaries are equipped to sense neurovascular coupling agents released onto the outer
wall of a capillary, translating these external signals into electrical/Ca2+ changes that play a
crucial role in blood flow regulation and ensuring that neuronal demands are met. However,
control mechanisms attributable to forces imposed onto the lumen are less clear. Here, we
show that Piezo1 channels act as mechanosensors in central nervous system capillaries.
Electrophysiological analyses confirmed expression and function of Piezo1 channels in …
Capillaries are equipped to sense neurovascular coupling agents released onto the outer wall of a capillary, translating these external signals into electrical/Ca2+ changes that play a crucial role in blood flow regulation and ensuring that neuronal demands are met. However, control mechanisms attributable to forces imposed onto the lumen are less clear. Here, we show that Piezo1 channels act as mechanosensors in central nervous system capillaries. Electrophysiological analyses confirmed expression and function of Piezo1 channels in brain cortical and retinal capillaries. Activation of Piezo1 channels evoked currents that were sensitive to endothelial cell–specific Piezo1 deletion. Using genetically encoded Ca2+ indicator mice and an ex vivo pressurized retina preparation, we found that activation of Piezo1 channels by mechanical forces triggered Ca2+ signals in capillary endothelial cells. Collectively, these findings indicate that Piezo1 channels are capillary mechanosensors that initiate crucial Ca2+ signals and could, therefore, have a profound impact on central nervous system blood flow control.
Am Heart Assoc