Identification of novel HPFH-like mutations by CRISPR base editing that elevates the expression of fetal hemoglobin

Switching hemoglobin synthesis from defective adult beta-globin to fetal gamma-globin is an effective strategy for the treatment of beta-hemoglobinopathies. Fetal hemoglobin expression is down-regulated in the postnatal period due to the interplay of transcription regulators with the HBG promoters. However, in the hereditary persistence of fetal hemoglobin (HPFH) condition, naturally occurring point mutations in the HBG promoter causes continued expression of fetal globin even during adulthood. Inspired by this natural phenomenon, we screened the proximal promoter of human HBG genes using adenine and cytosine base editors to identify other nucleotide substitutions that could potentially lead to elevated levels of fetal globin. Both the base editors efficiently and precisely edited at the target sites with a minimal generation of indels and no deletion of one of the duplicated HBG genes. Through systematic tiling across the HBG proximal promoter, we identified multiple novel target sites that resulted in a significant increase in fetal globin levels. Further, we individually validated the top eight potential target sites from both the base editors and observed robust elevation in the fetal globin levels up to 47 %, without any detrimental effects on erythroid differentiation. Our screening strategy resulted in the identification of multiple novel point mutations and also validated the known non-deletional HPFH mutations that could elevate the fetal globin expression at therapeutically relevant levels. Overall, our findings shed light on so far unknown regulatory elements within the HBG promoter that normally mediates fetal globin silencing and identify additional targets for therapeutic upregulation of fetal hemoglobin.