Gene replacement of α-globin with β-globin restores hemoglobin balance in β-thalassemia-derived hematopoietic stem and progenitor cells.

Journal: Nature Medicine

Published: October 08, 2019

Abstract

β-Thalassemia pathology is due not only to loss of β-globin (HBB), but also to erythrotoxic accumulation and aggregation of the β-globin-binding partner, α-globin (HBA1/2). Here we describe a Cas9/AAV6-mediated genome editing strategy that can replace the entire HBA1 gene with a full-length HBB transgene in β-thalassemia-derived hematopoietic stem and progenitor cells (HSPCs), which is sufficient to normalize β-globin:α-globin messenger RNA and protein ratios and restore functional adult hemoglobin tetramers in patient-derived red blood cells. Edited HSPCs were capable of long-term and bilineage hematopoietic reconstitution in mice, establishing proof of concept for replacement of HBA1 with HBB as a novel therapeutic strategy for curing β-thalassemia.

Authors

M Cromer, Joab Camarena, Renata Martin, Benjamin Lesch, Christopher Vakulskas, Nicole Bode, Gavin Kurgan, Michael Collingwood, Garrett Rettig, Mark Behlke, Viktor Lemgart, Yankai Zhang, Ankush Goyal, Feifei Zhao, Ezequiel Ponce, Waracharee Srifa, Rasmus Bak, Naoya Uchida, Ravindra Majeti, Vivien Sheehan, John Tisdale, Daniel Dever, Matthew Porteus

Relevant Conditions

Thalassemia, Hemoglobinopathy, Congenital Hemolytic Anemia, Beta Thalassemia, Hemolytic Anemia, Anemia, Sickle Cell Disease

Gene replacement of α-globin with β-globin restores hemoglobin balance in β-thalassemia-derived hematopoietic stem and progenitor cells.

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