8.A.241.  The Hypoxia-Inducible Factor-1α (HIF) Family  

Vasodilation in response to low oxygen (O₂) tension (hypoxic vasodilation) is an essential homeostatic response of systemic arteries that facilitates O₂ supply to tissues according to demand, but how blood vessels react to O₂ deficiency is poorly understood. A common belief is that arterial myocytes are O₂-sensitive. Supporting this concept, it has been shown that the activity of myocyte L-type Ca²⁺channels, the main ion channels responsible for vascular contractility, is reversibly inhibited by hypoxia.  Moreno-Domínguez et al. 2024 showed that genetic or pharmacological disruption of mitochondrial electron transport selectively abolishes O₂ modulation of Ca²⁺ channels and hypoxic vasodilation. Mitochondria function as O₂ sensors and effectors that signal myocyte Ca²⁺ channels due to constitutive Hif1α-mediated expression of specific electron transport subunit isoforms. These findings reveal the acute O₂-sensing mechanisms of vascular cells and may guide new developments in vascular pharmacology.