Background: The most severe form of β-thalassemia, β°-thalassemia major, is characterized by the complete absence of normal β-globin chain, and is often lethal. Autologous transplantation of genetically-modified hematopoietic stem cells (HSCs) using lentiviral vectors have been used successfully to achieve clinical efficacy in one patient, although clonal expansion of a myeloid cell population also occurred in this patient which was associated with the activation of a cellular proto-oncogene, HMGA2. We reasoned that recombinant vectors based on a non-pathogenic human parvovirus, the adeno-associated virus (AAV), might offer a safer alternative. We have previously documented that although the conventional single-stranded (ss) AAV2 vectors mediated β-globin gene transfer and expression in primary human fetal liver cells and in human HSCs from patients with β-thalassemia patients in vitro, the level of transgene expression was sub-optimal. In the present study, we investigated whether double-stranded self-complementary (sc) AAV2 vectors could overcome this limitation.

Methods: Human HSCs, obtained from a β-thalassemia homozygous patient, were mock-transduced or transduced with recombinant scAAV2-β-globin vectors at 5×104 vgs/cell, followed by i.v. injection into sub-lethally irradiated NOD/SCID mice (2.65 cGy total body irradiation), which were also pre-treated with 200 µg purified anti-IL2RB/CD122 monoclonal antibody. Recipient mice were sacrificed 12 weeks post-transplantation. Bone marrow cells from recipient mice were analyzed by BFU-E assays. Human β-globin gene expression in human erythroid progenitor cells from transplanted mice was evaluated by RT-PCR.

Results: Pre-treatment of NOD/SCID mice with anti-CD122 antibody improves engraftment of human HSCs in bone marrow of receipt mice. Human β-actin (538-bp) and β-globin (272-bp) transcripts were detected by RT-PCR in bone marrow cells from all recipient mice, indicating that recombinant scAAV2-β-globin–transduced HSCs from a patient with β-thalassemia were successfully transduced and transplanted in these mice and that human β-globin gene was transcriptionally active 12 weeks post-transplantation.

Conclusion: Our results indicate that human HSCs from β-thalassemia patients can be efficiently transduced by recombinant scAAV2-β-globin vectors followed by expression of normal human β-globin gene. These studies provide the proof-of-concept that scAAV2 vector-mediated gene transfer into human HSCs might be a potentially safer alternative approach for gene therapy of β-thalassemia.

Disclosures

No relevant conflicts of interest to declare.

Author notes

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Asterisk with author names denotes non-ASH members.

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