Journal
BLOOD
Volume 126, Issue 5, Pages 616-619Publisher
AMER SOC HEMATOLOGY
DOI: 10.1182/blood-2015-03-629618
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Funding
- National Institutes of Health, National Heart, Lung, and Blood Institute [P01 HL053750-19]
- Cooperation-Action I National Strategic Reference Framework (ESPA) Program [09SYN-12-1159]
- EU FP7 [306201]
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Globin gene therapy requires abundant numbers of highly engraftable, autologous hematopoietic stem cells expressing curative levels of beta-globin on differentiation. In this study, CD34(+) cells from 31 thalassemic patients mobilized with hydroxyurea+granulocyte colony-stimulating factor ( G-CSF), G-CSF, Plerixafor, or Plerixafor+G-CSF were transduced with the TNS9.3.55 beta-globin lentivector and compared for transducibility and globin expression in vitro, as well as engraftment potential in a xenogeneic model after partial myeloablation. Transduction efficiency and vector copynumber ( VCN) averaged 48.4 +/- 2.8% and 1.9 +/- 0.04, respectively, whereas expression approximated the one-copy normal beta-globin output. Plerixafor+G-CSF cells produced the highest beta-globin expression/VCN. Long-term multi-lineage engraftment and persistent VCN and vector expression was encountered in all xenografted groups, with Plerixafor+G-CSF-mobilized cells achieving superior short-term engraftment rates, with similar numbers of CD34(+) cells transplanted. Overall, Plerixafor+G-CSF not only allows high CD34(+) cell yields but also provides increased beta-globin expression/VCN and enhanced early human chimerism under nonmyeloablative conditions, thus representing an optimal graft for thalassemia gene therapy.
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