Identification of Hepatic-like EPO as a Cause of Polycythemia

Secondary erythrocytosis often results from conditions that cause tissue hypoxia or an improper increase in erythropoietin (EPO) production. EPO, the major regulator of erythropoiesis, has a complex and tightly regulated expression during development, with a liver-to-kidney switch shortly after birth. We identified six families with erythrocytosis that was associated with circulating EPO levels within the normal range and characterized as a novel molecular and functional entity. We investigated the effect of the identified pathogenic variants using EPO promoter-driven luciferase reporter genes. Induced pluripotent stem cells (iPSCs) were generated from patient cells and differentiated into hepatocyte-like EPO-producing cells. Samples of circulating EPO from patients with hereditary erythrocytosis and from healthy newborns were analyzed by means of isoelectric focusing, and EPO activity was assessed. Three novel variants were identified in the noncoding regions of EPO. Experiments with reporter assays and iPSC-derived hepatocyte-like cells showed that the variants targeted previously uncharacterized regulatory elements of the gene, which, when the variants were present, showed high responsiveness to hypoxia. EPO samples from all the patients showed a modified isoelectric-focusing profile, identical to hepatic EPO that is expressed in premature neonates and in patients with acquired erythrocytosis associated with liver diseases. EPO that was purified from patient plasma and umbilical-cord blood samples showed enhanced EPO receptor signaling activity in vitro, which suggests a potential gain of function linked to the liver-type glycosylation of EPO. We found that secondary erythrocytosis can be related to variants in EPO that lead to the production of hepatic-like EPO with an atypical glycosylation pattern and increased activity. (Funded by Région des Pays de la Loire and others; ClinicalTrials.gov number, NCT03957863.).