Abstract
Pannexin 3 (Panx3) expression is generally thought to be restricted to skin, cartilage and bone where it is routinely observed on intracellular compartments. However, multiple RNAseq studies have demonstrated consistent expression of Panx3 in endothelium throughout the vasculature. A physiological role for endothelial Panx3 has yet to be described. To assess the expression of Panx3 in intact endothelium, we first performed immunogold labelling on high pressure frozen third‐order mesenteric arteries. Panx3 preferentially localized to internal membranes in transverse sections of the endothelium. Next, we used multiple Panx3 antibodies raised against different topographical locations on third‐order mesenteric arteries prepared en face. We found that endothelial Panx3 was polarized downstream of blood flow, co‐localizing with a subset of calnexin‐positive perinuclear membranes, indicating association with the endoplasmic reticulum (ER). To test whether Panx3 was flow‐sensitive, primary cultures of human endothelial cells were seeded in parallel plate flow chambers and exposed to laminar shear stress (10 dynes/cm2 for 18 hours). Panx3 was polarized in the direction of flow similar to that seen in intact resistance arteries. To interrogate the physiological role of endothelial Panx3, we generated an inducible, cell‐specific Panx3 knockout mouse (Panx3fl/fl/Cdh5‐CreERT2+), which reduces both Panx3 mRNA and protein following tamoxifen injection. Panx3fl/fl/Cdh5‐CreERT2+ mice had normal blood cell parameters, heart function, body length, body weight, and fat content. Because we identified Panx3 in the ER perinuclear region, we began by assessing intracellular calcium on intact third‐order mesenteric arteries. Loss of endothelial Panx3 reduced intracellular calcium activity in endothelium under unstimulated conditions. Because calcium is vital to arterial dilation, we performed pressure myography. We found that resistance arteries from Panx3fl/fl/Cdh5‐CreERT2+ mice exhibit significantly enhanced vasoconstriction in response to phenylephrine, indicating impaired endothelial negative feedback on the smooth muscle cells. Due to the role of resistance arteries in blood pressure regulation, we hypothesized there may be a change in the blood pressure of these mice. We used radiotelemetry and found Panx3fl/fl/Cdh5‐CreERT2+ mice were hypertensive compared to tamoxifen‐injected littermate controls. The sum of this data suggests that endothelial Panx3 is polarized on the ER where it can regulate calcium activity in the endothelium, independent of ATP release, and may be important for vascular function.Support or Funding InformationHL149221 (AGW) and HL120840 (BEI)
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