Cannabidiol Inhibits PIEZO Channels to Mitigate Red Blood Disorders

Hyperactivity of the mechanosensitive ion channel PIEZO1 promotes pathologic Ca{superscript 2} overload in red blood cells (RBCs), driving dehydration, TMEM16F-dependent phosphatidylserine (PS) exposure, microparticle shedding, and increased thrombotic and vaso-occlusive risks in hereditary xerocytosis (HX) and sickle cell disease (SCD). However, clinically deployable PIEZO inhibitors to treat these blood disorders are lacking. Here we report that cannabidiol (CBD), a non-psychoactive cannabinoid commonly used in SCD patients for pain management, inhibits PIEZO1 activity and restores aberrant mechanotransduction in HX and SCD RBCs. Micromolar concentrations of CBD blocks PIEZO1 currents and suppresses PIEZO1-mediate Ca{superscript 2} entry. In HX and SCD RBCs, CBD attenuates PIEZO1-TMEM16F coupling, thereby reducing PS exposure, microparticle release, thrombin generation, RBC-endothelium adhesion, and sickling. Beyond RBCs, CBD also blocks PIEZO2 currents and PIEZO2-dependent mechanical sensation in mice, suggesting broader effects of CBD-mediated PIEZO inhibition on nociceptive functions. Together, our findings identify CBD as a potent PIEZO inhibitor that restores calcium and membrane homeostasis, supporting the repurposing of CBD or the development of CBD-derived, PIEZO-selective analogs as a promising disease-modifying strategy for SCD, HX, and other PIEZO-mediated mechanosensing disorders. HighlightsO_LICBD inhibits PIEZO channels and disrupts the PIEZO1-TMEM16F axis in diseased RBCs C_LIO_LICBD shows a therapeutic window to prevent PS exposure and translational promise for HX and SCD C_LI