Erythrocyte purinergic signaling components underlie hypoxia adaptation

Abstract

Erythrocytes are vital to human adaptation under hypoxic conditions because of their abundance in number and irreplaceable function of delivering oxygen (O2). However, although multiple large-scale altitude studies investigating the overall coordination of the human body for hypoxia adaptation have been conducted, detailed research with a focus on erythrocytes was missing due to lack of proper techniques. The recently maturing metabolomics profiling technology appears to be the answer to this limitation. Metabolomics profiling provides unbiased high-throughput screening data that reveal the overall metabolic status of erythrocytes. Recent studies have exploited this new technology and provided novel insight into erythrocyte physiology and pathology. In particular, a series of studies focusing on erythrocyte purinergic signaling have reported that adenosine signaling, coupled with 5′ AMP-activated protein kinase (AMPK) and the production of erythrocyte-enriched bioactive signaling lipid sphingosine 1-phosphate, regulate erythrocyte glucose metabolism for more O2 delivery. Moreover, an adenosine-dependent “erythrocyte hypoxic memory” was discovered that provides an explanation for fast acclimation upon re-ascent. These findings not only shed new light on our understanding of erythrocyte function and hypoxia adaptation, but also offer a myriad of novel therapeutic possibilities to counteract various hypoxic conditions.