Efficacy and safety of a single dose of exagamglogene autotemcel for transfusion-dependent.-thalassemia and severe sickle cell disease

Background: Elevated fetal hemoglobin(HbF) is associated with improved outcomes in patients(pts) with transfusion-dependent β-thalassemia(TDT) and sickle cell disease(SCD). Exagamglogene autotemcel(exa-cel; formerly known as CTX001) is a cell therapy designed to reactivate HbF via non-viral, ex vivo CRISPR/Cas9 gene-editing at the erythroid enhancer region of BCL11A in autologous CD34+ hematopoietic stem and progenitor cells(HSPCs). Early data from the pivotal trials CLIMB THAL-111(NCT03655678) and CLIMB SCD-121(NCT03745287) showed that a single dose of exa-cel increased HbF and total Hb sufficiently to eliminate red blood cell(RBC) transfusions(TDT) and vaso-occlusive crises(VOCs; SCD). Aims: To report efficacy and safety data from the first 75 pts dosed with exa-cel in the ongoing CLIMB THAL-111 and CLIMB SCD-121 trials. Methods: Following pharmacokinetic-adjusted busulfan myeloablation and exa-cel infusion, pts(12-35y) are monitored for engraftment, total Hb, HbF, BCL11A edited alleles, transfusions, VOCs(SCD only), and adverse events(AEs). Data presented as mean(min-max) unless noted. Results: 44 pts with TDT(age 21.3 [12-35] y) and 31 pts with SCD(age 22.5 [12-34} y) had been infused with exa-cel at data cut(follow-up 12.3 [1.2-37.2] mo and 9.6 [2.0-32.3] mo, respectively). 26/44 pts with TDT(59.1%) had β0/β0 or a β0/β0-like genotype(β0/IVS-I-110, IVS-I-110/IVS-I-110). In the 2-yr period before screening, pts with TDT received 36.0(15.0-71.0) units RBC/yr and pts with SCD had 3.9(2.0-9.5) severe VOCs/yr. After exa-cel infusion, all pts engrafted neutrophils and platelets. Median time to neutrophil and platelet engraftment was 29 and 43 days in pts with TDT and 27 and 32 days in those with SCD, respectively. Overall, 42 of 44 pts with TDT stopped RBC transfusions(duration 0.8 to 36.2 mo); 2 pts had not yet stopped transfusions but had 75% and 89% reductions in transfusion volume. By Month 3, increases in HbF and mean total Hb levels(>9 g/dL) were achieved, with mean total Hb levels increasing to >11 g/dL thereafter and were maintained. All pts with SCD(n=31) no longer had severe VOCs after exa-cel infusion(duration 2.0 to 32.3 mo). The mean proportion of HbF was >20% by Month 3, increasing to ~40% at Month 4 and was stable thereafter, with mean total Hb levels >11 g/dL after Month 3. Pts with TDT and SCD with ≥1 yr follow-up had stable proportions of edited BCL11A alleles in bone marrow CD34+ HSPCs and peripheral blood mononuclear cells. Two pts with TDT had serious AEs(SAEs) considered related to exa-cel. The first pt was previously reported. The second pt had delayed neutrophil engraftment and thrombocytopenia, which were considered related to both exa-cel and busulfan. All SAEs resolved. No pts with SCD had SAEs considered related to exa-cel. There were no deaths, discontinuations, or malignancies. Conclusions: Exa-cel infusion led to elimination of transfusions in almost all patients with TDT and elimination of VOCs in all patients with SCD, with associated clinically meaningful increases in HbF and total Hb that were maintained over time. Proportions of CRISPR/Cas9-edited BCL11A alleles remained stable after more than 1 year, indicating that long-term HSCs were successfully edited. The safety profile was generally consistent with busulfan myeloablation and autologous transplant. These results indicate exa-cel has the potential to be the first CRISPR/Cas9-based therapy to provide a one-time functional cure for TDT and severe SCD. Reference 1. Frangoul et al, N Engl J Med 2021; 384:252-260.