Gene Therapy and Transfer
Oral and Poster Abstracts
Oral
801. Gene Therapy and Transfer: Gene Therapy for Hemoglobinopathies and Inherited Bleeding Disorders
Tangerine 3 (WF3-4), Level 2
(Orange County Convention Center)
Fyodor D Urnov, PhD1*, Andreas Reik, PhD1*, Jeff Vierstra, PhD2*, Kai-Hsin Chang, PhD3*, Yuanyue Zhou1*, Andrea Mich1*, Jennifer Adrian1*, Lisa Fox1*, Nikoletta Psatha, PhD2*, Siyuan Tan, PhD3*, Evangelia Yannaki, MD4, Stewart Craig, PhD1*, Edward J. Rebar, PhD1*, John Stamatoyannopoulos, MD2*, Thalia Papayannopoulou, MD2, George Stamatoyannopoulos, MD, DSci2 and Haiyan Jiang, PhD3
1Sangamo BioSciences, Richmond, CA
2University of Washington, Seattle, WA
3Biogen, Cambridge, MA
4George Papanicolaou Hospital, Thessaloniki, Greece
We describe here a fundamentally novel way to develop a disease therapeutic: combining genome-wide association studies (GWAS) with targeted genome editing to create, in a clinically compliant setting, a disease-ameliorating genotype in the patient’s own cells. In β-thalassemia, elevated levels of fetal hemoglobin (HbF) lessen or eliminate disease symptoms, thus making a reversal of HbF silencing in patients an appealing therapeutic strategy. Loss-of-function variants in the erythroid-specific enhancer of the fetal globin repressor, BCL11A, elevate HbF; rare individuals carrying a monoallelic knockout of BCL11A exhibit no known hematologic abnormality and up to 30% circulating HbF. We previously reported de novo knockout of BCL11A using targeted genome editing with engineered zinc finger nucleases (ZFNs) yielding up to 40% HbF in erythroid progeny of edited human CD34 cells in vitro. We now find that the targeted ablation of a single, specific GATAA motif in the BCL11A intronic enhancer does not affect in vitro erythroid differentiation, but reproducibly (n=6) activates fetal globin transcription in erythroid progeny of modified CD34 cells; importantly, at similar levels of on-target marking in CD34+ cells, these effects on fetal globin mRNA are comparable to those resulting from ZFN-driven coding knockout of BCL11A itself. We demonstrate reproducible (n=8), high-efficiency (up to 82%; average, 69%) ZFN-driven marking at the enhancer in peripheral blood mobilized human CD34 cells at clinical production scale (>1e8 cells) in a GMP-compliant setting for which we use a clinical-grade electroporation device to deliver nuclease-encoding transcribed mRNA ex vivo. Using erythroid colony assay genotyping we find that up to 70% of the cells in the resulting population are biallelically modified at the target locus, while ~10% remain wild-type, and find comparably high levels of marking in research-scale preparations of CD34 cells from patients with β-thalassemia. We observe robust long-term (18-24 week) engraftment and multilineage differentiation of genome-edited cells in immunodeficient mice, similar to control cells, and equivalent modification at the targeted enhancer locus at all timepoints in both differentiated (CD19+, CD3+, CD33+) and more primitive progenitor (CD34+CD38low) cells of human origin purified from bone marrow of long-term-engrafted animals. Our findings support clinical development of enhancer editing as a treatment of the β hemoglobinopathies with autologous hematopoietic stem cell transplant.
Disclosures: Urnov: Sangamo BioSciences:
Employment
,
Equity Ownership
,
Patents & Royalties: Patent applications have been filed based on this work
. Reik: Sangamo BioSciences:
Employment
,
Equity Ownership
,
Patents & Royalties: Patent applications have been filed based on this work
. Vierstra: University of Washington:
Patents & Royalties: Patent applications have been filed based on this work
. Chang: Biogen:
Employment
,
Equity Ownership
. Zhou: Sangamo BioSciences:
Employment
,
Equity Ownership
. Mich: Sangamo BioSciences:
Employment
,
Equity Ownership
. Adrian: Cellerant Therapeutics:
Equity Ownership
; Sangamo BioSciences:
Employment
,
Equity Ownership
. Fox: Sangamo BioSciences:
Employment
,
Equity Ownership
. Tan: Biogen:
Employment
,
Equity Ownership
. Craig: Sangamo BioSciences:
Employment
,
Equity Ownership
. Rebar: Sangamo BioSciences:
Employment
. Stamatoyannopoulos: University of Washington:
Patents & Royalties: Patent applications have been filed based on this work.
. Jiang: Biogen:
Employment
,
Equity Ownership
.
*signifies non-member of ASH