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Non-viral DNA delivery and TALEN editing correct the sickle cell mutation in hematopoietic stem cells.

Arianna MoianiGil LetortSabrina LizotAnne ChalumeauChloe ForayTristan FelixDiane Le ClerreSonal TemburniPatrick HongSophie LeducNoemie PinardAlan MarechalEduardo SeclenAlex BoyneLouisa MayerRobert HongSylvain PulicaniRoman GalettoAgnès GoubleMarina CavazzanaAlexandre JuilleratAnnarita MiccioAymeric DuclertPhilippe DuchateauJulien Valton
Published in: Nature communications (2024)
Sickle cell disease is a devastating blood disorder that originates from a single point mutation in the HBB gene coding for hemoglobin. Here, we develop a GMP-compatible TALEN-mediated gene editing process enabling efficient HBB correction via a DNA repair template while minimizing risks associated with HBB inactivation. Comparing viral versus non-viral DNA repair template delivery in hematopoietic stem and progenitor cells in vitro, both strategies achieve comparable HBB correction and result in over 50% expression of normal adult hemoglobin in red blood cells without inducing β-thalassemic phenotype. In an immunodeficient female mouse model, transplanted cells edited with the non-viral strategy exhibit higher engraftment and gene correction levels compared to those edited with the viral strategy. Transcriptomic analysis reveals that non-viral DNA repair template delivery mitigates P53-mediated toxicity and preserves high levels of long-term hematopoietic stem cells. This work paves the way for TALEN-based autologous gene therapy for sickle cell disease.
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