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<scp>GBT021601</scp> improves red blood cell health and the pathophysiology of sickle cell disease in a murine model

Kobina Dufu, Carsten Alt, Steven Strutt, James R. Partridge, Tzechiang Tang, Vincent Siu, Hilary Liao‐Zou, Peter Rademacher, Alexander T. Williams, Cynthia R. Muller, Xin Geng, Mira Patel Pochron, Annie Nguyen Dang, Pedro Cabrales, Zhe Li, Donna Oksenberg, Brian E. Cathers

2023British Journal of Haematology18 citationsDOIOpen Access PDF

Abstract

The pathophysiologic mechanism of sickle cell disease (SCD) involves polymerization of deoxygenated haemoglobin S (HbS), leading to red blood cell (RBC) sickling, decreased RBC deformability, microvascular obstruction, haemolysis, anaemia and downstream clinical complications. Pharmacological increase in the concentration of oxygenated HbS in RBCs has been shown to be a novel approach to inhibit HbS polymerization and reduce RBC sickling and haemolysis. We report that GBT021601, a small molecule that increases HbS-oxygen affinity, inhibits HbS polymerization and prevents RBC sickling in blood from patients with SCD. Moreover, in a murine model of SCD (SS mice), GBT021601 reduces RBC sickling, improves RBC deformability, prolongs RBC half-life and restores haemoglobin levels to the normal range, while improving oxygen delivery and increasing tolerance to severe hypoxia. Notably, oral dosing of GBT021601 in animals results in higher levels of Hb occupancy than voxelotor and suggests the feasibility of once-daily dosing in humans. In summary, GBT021601 improves RBC health and normalizes haemoglobin in SS mice, suggesting that it may be useful for the treatment of SCD. These data are being used as a foundation for clinical research and development of GBT021601.

Topics & Concepts

HaemolysisPathophysiologyRed blood cellMedicineSickle cell anemiaCellImmunologyHemoglobinHypoxia (environmental)Hemolytic anemiaDiseaseHemolysisPharmacologyInternal medicineChemistryOxygenBiochemistryOrganic chemistryHemoglobinopathies and Related DisordersErythrocyte Function and PathophysiologyBlood groups and transfusion
<scp>GBT021601</scp> improves red blood cell health and the pathophysiology of sickle cell disease in a murine model | Litcius