The long term goals of the proposed research are to develop methods for efficient gene transfer into somatic cells as a means for treatment of human disease. Genetic diseases related to missing or altered gene products are good candidates for treaatment using these methods. Applications to cancer treatment include transfer of drug resistance genes into transplanted marrow allowing patients to tolerate higher doses of chemotherapy. It is generally agreed that retroviral gene transfer systems have the greatest potential for use in human somatic cell gene transfer. Bone marrow cells are ideal recipients for introduced genes because they are readily accessible, contain pluripotent self-renewing stem cells, and can be reliably reintroduced into animals.
The aim of this investigation is to develop methods for efficient introduction of genetic material into bone marrow stem cells using retroviral vectors. Previous work by the Principal Investigator and others has shown that retroviral vectors allow highly efficient transduction of defined genes into cultured cells. Recently, retroviral gene transduction into bone marrow cells of intact mice has been demonstrated. We propose to extend these experiments using the canine model, which has been shown to be a good model for eventual human applications. A virus expressing a dominant-acting methotrexate-resistant dihydrofolate reductase gene will be used as a model virus. In comparison to genes previously inserted into retroviruses, this gene has the advantage that cells containing the gene can be selected in intact animals. The ability of the virus to confer methotrexate resistance to canine and human marrow in vitro, and to canine marrow cells transplanted into dogs will be tested. Methods of production of the model virus in the absence of replicating helper virus have been developed and will be more thoroughly tested in culture and in animals. Transfer of human disease-related genes will also be attempted in culture and in animals.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA041455-03
Application #
3181940
Study Section
Mammalian Genetics Study Section (MGN)
Project Start
1985-12-01
Project End
1988-11-30
Budget Start
1987-12-01
Budget End
1988-11-30
Support Year
3
Fiscal Year
1988
Total Cost
Indirect Cost
Name
Fred Hutchinson Cancer Research Center
Department
Type
DUNS #
075524595
City
Seattle
State
WA
Country
United States
Zip Code
98109
Hock, R A; Miller, A D; Osborne, W R (1989) Expression of human adenosine deaminase from various strong promoters after gene transfer into human hematopoietic cell lines. Blood 74:876-81
Palmer, T D; Thompson, A R; Miller, A D (1989) Production of human factor IX in animals by genetically modified skin fibroblasts: potential therapy for hemophilia B. Blood 73:438-45
Osborne, W R; Miller, A D (1988) Design of vectors for efficient expression of human purine nucleoside phosphorylase in skin fibroblasts from enzyme-deficient humans. Proc Natl Acad Sci U S A 85:6851-5
Adam, M A; Miller, A D (1988) Identification of a signal in a murine retrovirus that is sufficient for packaging of nonretroviral RNA into virions. J Virol 62:3802-6
Stead, R B; Kwok, W W; Storb, R et al. (1988) Canine model for gene therapy: inefficient gene expression in dogs reconstituted with autologous marrow infected with retroviral vectors. Blood 71:742-7
Miller, A D; Bender, M A; Harris, E A et al. (1988) Design of retrovirus vectors for transfer and expression of the human beta-globin gene. J Virol 62:4337-45
Bender, M A; Palmer, T D; Gelinas, R E et al. (1987) Evidence that the packaging signal of Moloney murine leukemia virus extends into the gag region. J Virol 61:1639-46
Palmer, T D; Hock, R A; Osborne, W R et al. (1987) Efficient retrovirus-mediated transfer and expression of a human adenosine deaminase gene in diploid skin fibroblasts from an adenosine deaminase-deficient human. Proc Natl Acad Sci U S A 84:1055-9
Anson, D S; Hock, R A; Austen, D et al. (1987) Towards gene therapy for hemophilia B. Mol Biol Med 4:11-20
Miller, A D; Palmer, T D; Hock, R A (1986) Transfer of genes into human somatic cells using retrovirus vectors. Cold Spring Harb Symp Quant Biol 51 Pt 2:1013-9

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