Litcius/Paper detail

The Calcium Homeostasis of Human Red Blood Cells in Health and Disease: Interactions of PIEZO1, the Plasma Membrane Calcium Pump, and Gardos Channels

Virgilio L. Lew

2024Annual Review of Physiology18 citationsDOIOpen Access PDF

Abstract

Calcium ions mediate the volume homeostasis of human red blood cells (RBCs) in the circulation. The mechanism by which calcium ions affect RBC hydration states always follows the same sequence. Deformation of RBCs traversing capillaries briefly activates mechanosensitive PIEZO1 channels, allowing Ca 2+ influx down its steep inward gradient transiently overcoming the calcium pump and elevating [Ca 2+ ] i . Elevated [Ca 2+ ] i activates the Ca 2+ -sensitive Gardos channels, inducing KCl loss and cell dehydration, a sequence operated with infinite variations in vivo and under experimental conditions. The selected health and disease themes for this review focus on landmark experimental results that led to the development of highly constrained models of the circulatory changes in RBC homeostasis. Based on model predictions, a new perspective emerged, pointing to PIEZO1 dysfunction as the main trigger in the formation of the profoundly dehydrated irreversible sickle cells, the main pathogenic participants in vaso-occlusion, the root cause of sickle cell disease.

Topics & Concepts

PIEZO1CalciumMechanosensitive channelsHomeostasisBiophysicsChemistryCalcium metabolismCalcium pumpCell biologyRed blood cellIon channelBiologyBiochemistryReceptorEnzymeOrganic chemistryATPaseErythrocyte Function and PathophysiologyHemoglobinopathies and Related DisordersBlood properties and coagulation