Piezo1 regulates shear-dependent nitric oxide production in human erythrocytes

Mature circulating red blood cells (RBCs) are classically viewed as passive participants in circulatory function, given erythroblasts eject their organelles during maturation. Endogenous production of nitric oxide (NO) and its effects are of particular significance; however, the integration between RBC sensation of the local environment and subsequent activation of mechano-sensitive signaling networks that generate NO remain poorly understood. The present study investigated endogenous NO production via the RBC-specific nitric oxide synthase isoform (RBC-NOS), connecting membrane strain with intracellular enzymatic processes. Isolated RBCs were obtained from apparently healthy humans. Intracellular NO was compared at rest and following shear (cellular deformation) using semiquantitative fluorescent imaging. Concurrently, RBC-NOS phosphorylation at its serine