The thalassemias and hemoglobinopathies represent a heterogeneous group of anemias characterized by absent/reduced or abnormal production of one or more of the globin-molecule subunits, respectively, and strategies which aim to replace the absent or defective globin gene have long been envisioned as potentially curative. Indeed, retroviral vectors carrying globin genes were among the first gene transfer vectors to be tested in murine models, but low gene transfer rates and poor globin gene expression plagued the field. Furthermore, rodent models proved insufficient to model human hematopoieisis. In large animals, significant advances in gene transfer technology have been made by systematically testing transduction methods in a competitive repopulation model, with long-term in-vivo gene transfer levels of 5-10% or higher now achievable after ablative condition with high dose irradiation1,2. The finding of common integration sites among myeloid and erythroid colonies as well as peripheral blood T and B cell populations along with the prolonged contribution of some clones to myeloid progeny satisfied strict criteria for transduction of true hematopoietic stem cells, and the clonal dynamics supported a stochastic model of in vivo hematopoiesis3-5. The development of techniques for clonal tracking have also proven important in assessing the risk of insertional mutagenesis with integrating retroviral vectors6,7. Concurrent with this progress, the Sadelain group succeeded in attaining high titer, stable viral vectors which faithfully deliver the human ?-globin gene along with key regulatory elements sufficient to ameliorate disease in a murine model of ?-thalassemia8, setting the stage for preclinical testing in the large animal model. In collaboration with the Sadelain laboratory, we have now moved forward with preclinical testing of lentiviral gene transfer vectors carrying human ?-globin along with key regulatory sequences in the rhesus macaque model. A number of other issues, however, remain to be addressed prior to clinical application. We have recently established steady state marrow, the only practical stem cell source in sickle cell disease, as a viable target for genetic manipulation in the nonhuman primate9, yet the type and degree of conditioning required to achieve adequate engraftment remains to be established. We have previously shown that low dose irradiation is sufficient to allow clinically relevant levels of engraftment of genetically modified cells in the murine model, even when xenogeneic genes are expressed10. Such irradiation doses allowed for long term engraftment by genetically modified cells in the nonhuman primate, but at levels too low to expect clinical benefit. Increasing the irradiation dose to levels bordering myeloablative resulted in only modest improvement11. Busulfan is an alkylating chemotherapeutic agent that has long been used as an alternative agent to total body irradiation for conditioning for bone marrow transplantation. However, erratic absorption of the oral formulation necessitated close pharmacokinetic monitoring of individual patients to achieve predictable myelosuppression. We have recently evaluated a newly available intravenous formulation of busulfan in the murine model, and the results demonstrate that dose dependent engraftment can be achieved at levels of up to 80% at nonmyeloative doses. Further improvement can be achieved by delaying infusion to the day of the neutrophil nadir. This agent is now being tested in the nonhuman primate model in an attempt determine the dosage adequate to allow engraftment of genetically modified cells at levels sufficient for clinical application. These current studies will be used in support of eventual clinical studies in globin disorders with the ultimate goal of providing preclinical safety and efficacy data in order to maximize the likelihood of success in the context of an acceptable risk/benefit ratio.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Intramural Research (Z01)
Project #
1Z01DK027011-02
Application #
7151526
Study Section
Medicinal Chemistry B Study Section (MCHB)
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
2005
Total Cost
Indirect Cost
Name
U.S. National Inst Diabetes/Digst/Kidney
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Sadelain, Michel; Boulad, Farid; Galanello, Renzo et al. (2007) Therapeutic options for patients with severe beta-thalassemia: the need for globin gene therapy. Hum Gene Ther 18:1-9
Hsieh, Matthew M; Linde, N Seth; Wynter, Aisha et al. (2007) HIF prolyl hydroxylase inhibition results in endogenous erythropoietin induction, erythrocytosis, and modest fetal hemoglobin expression in rhesus macaques. Blood 110:2140-7
Hsieh, Matthew M; Langemeijer, Saskia; Wynter, Aisha et al. (2007) Low-dose parenteral busulfan provides an extended window for the infusion of hematopoietic stem cells in murine hosts. Exp Hematol 35:1415-20
Kang, Elizabeth M; Hsieh, Matthew M; Metzger, Mark et al. (2006) Busulfan pharmacokinetics, toxicity, and low-dose conditioning for autologous transplantation of genetically modified hematopoietic stem cells in the rhesus macaque model. Exp Hematol 34:132-9
Samakoglu, Selda; Lisowski, Leszek; Budak-Alpdogan, Tulin et al. (2006) A genetic strategy to treat sickle cell anemia by coregulating globin transgene expression and RNA interference. Nat Biotechnol 24:89-94
Ueda, Takahiro; Brenner, Sebastian; Malech, Harry L et al. (2005) Cloning and functional analysis of the rhesus macaque ABCG2 gene. Forced expression confers an SP phenotype among hematopoietic stem cell progeny in vivo. J Biol Chem 280:991-8
Hematti, Peiman; Tuchman, Sascha; Larochelle, Andre et al. (2004) Comparison of retroviral transduction efficiency in CD34+ cells derived from bone marrow versus G-CSF-mobilized or G-CSF plus stem cell factor-mobilized peripheral blood in nonhuman primates. Stem Cells 22:1062-9
Kang, Elizabeth M; Tisdale, John F (2004) The leukemogenic risk of integrating retroviral vectors in hematopoietic stem cell gene therapy applications. Curr Hematol Rep 3:274-81
Persons, Derek A; Tisdale, John F (2004) Gene therapy for the hemoglobin disorders. Semin Hematol 41:279-86
Sellers, Stephanie E; Tisdale, John F; Agricola, Brian A et al. (2004) The presence of the carboxy-terminal fragment of fibronectin allows maintenance of non-human primate long-term hematopoietic repopulating cells during extended ex vivo culture and transduction. Exp Hematol 32:163-70

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