High-level correction of the sickle mutation is amplified in vivo during erythroid differentiation.

2022
https://researcherprofiles.org/profile/299074139
35633935
Magis W, DeWitt MA, Wyman SK, Vu JT, Heo SJ, Shao SJ, Hennig F, Romero ZG, Campo-Fernandez B, Said S, McNeill MS, Rettig GR, Sun Y, Wang Y, Behlke MA, Kohn DB, Boffelli D, Walters MC, Corn JE, Martin DIK
Abstract

BACKGROUND

A point mutation in sickle cell disease (SCD) alters one amino acid in the β-globin subunit of hemoglobin, with resultant anemia and multiorgan damage that typically shortens lifespan by decades. Because SCD is caused by a single mutation, and hematopoietic stem cells (HSCs) can be harvested, manipulated, and returned to an individual, it is an attractive target for gene correction.

RESULTS

An optimized Cas9 ribonucleoprotein (RNP) with an ssDNA oligonucleotide donor together generated correction of at least one β-globin allele in more than 30% of long-term engrafting human HSCs. After adopting a high-fidelity Cas9 variant, efficient correction with minimal off-target events also was observed. erythroid differentiation markedly enriches for corrected β-globin alleles, indicating that erythroblasts carrying one or more corrected alleles have a survival advantage.

SIGNIFICANCE

These findings indicate that the sickle mutation can be corrected in autologous HSCs with an optimized protocol suitable for clinical translation.

Journal Issue
Volume 25 of Issue 6