Exploring Novel Strategies to Alleviate Symptoms of β-Globinopathies: Examining the Potential Role of Embryonic ε-globin Induction

Abstract

β-thalassemia and sickle cell disease are among the most prevalent genetic blood disorders globally. These conditions arise from mutations in the β-globin gene, leading to defective hemoglobin production and resulting in anemia. Current treatments include γ-globin inducers (e.g., Hydroxyurea), blood transfusions, iron chelation therapy, and bone marrow transplantation. Recently approved disease-modifying agents and promising gene therapies offer hope, yet their broad application is constrained by scalability challenges. Traditionally, research and development for β-globinopathies have focused on γ-globin induction. However, the ε-globin variant, which is active during early embryonic development and subsequently silenced prenatally, was once considered non-inducible by postnatal pharmacological means. Recent studies indicate that, akin to γ-globin, enhancing ε-globin expression could compensate for impaired β-globin synthesis, potentially ameliorating the clinical manifestations of β-globinopathies. This review critically examines the viability of ε-globin induction as a therapeutic strategy for β-thalassemia and sickle cell diseases. It also delves into the burgeoning research on the mechanisms governing ε-globin silencing and its pharmacological reactivation. We conclude with a discussion of prospective research directions and drug development initiatives aimed at exploiting ε-globin's therapeutic promise.