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ABSTRACT: Abstract Retroviral vectors are an efficient and widely employed means of introducing an exogenous expression cassette into target cells. These vectors have been shown to integrate semi-randomly into the cellular genome, and can be associated with genotoxicity due to impact on expression of proximate genes. Therefore, efficient and accurate integration site analysis, while quantifying contributions of individual vector-containing clones, is desirable. Linear amplification-mediated polymerase chain reaction (LAM-PCR) is a widely used technique for identifying integrated proviral and host genomic DNA junctions. However, LAM-PCR is subject to selection bias inherent in the reliance of the assay on the presence of a restriction enzyme-cutting site adjacent to a retrievable integration site, and it is further limited by an inability to discriminate prior to sequencing between the flanking genomic DNA of interest and uninformative internal vector DNA. We report a modified restriction enzyme-free LAM-PCR (Re-free LAM-PCR) approach that is less time and labor intensive compared to conventional LAM-PCR, but in contrast to some other nonrestrictive methods, compares in efficiency and sensitivity, excludes retrieval of uninformative internal vector sequences, and allows retrieval of integration sites unbiased by the presence of nearby restriction sites. However, we report that Re-free LAM-PCR remains inaccurate for quantitation of the relative contributions of individual integration site-containing clones in a polyclonal setting, suggesting that bias in LAM-PCR retrieval of integration sites is not wholly explained by restriction enzyme-related factors.
Hum Gene Ther. 01/2013; 24(1):38-47.
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ABSTRACT: Adverse events linked to perturbations of cellular genes by vector insertion reported in gene therapy trials and animal models have prompted attempts to better understand the mechanisms directing viral vector integration. The integration profiles of vectors based on MLV, ASLV, SIV and HIV have all been shown to be non-random, and novel vectors with a safer integration pattern have been sought. Recently, we developed a producer cell line called CatPac that packages standard MoMLV vectors with feline leukemia virus (FeLV) gag, pol and env gene products. We now report the integration profile of this vector, asking if the FeLV integrase and capsid proteins could modify the MoMLV integration profile, potentially resulting in a less genotoxic pattern. We transduced rhesus macaque CD34+ hematopoietic progenitor cells with CatPac or standard MoMLV vectors, and determined their integration profile by LAM-PCR. We obtained 184 and 175 unique integration sites (ISs) respectively for CatPac and standard MoMLV vectors, and these were compared with 10 000 in silico-generated random IS. The integration profile for CatPac vector was similar to MoMLV and equally non-random, with a propensity for integration near transcription start sites and in highly dense gene regions. We found an IS for CatPac vector localized 715 nucleotides upstream of LMO-2, the gene involved in the acute lymphoblastic leukemia developed by X-SCID patients treated by gene therapy using MoMLV vectors. In conclusion, we found that replacement of MoMLV env, gag and pol gene products with FeLV did not alter the basic integration profile. Thus, there appears to be no safety advantage for this packaging system. However, considering the stability and efficacy of CatPac vectors, further development is warranted, using potentially safer vector backbones, for instance those with a SIN configuration.
Gene therapy 06/2010; 17(6):799-804. · 4.75 Impact Factor
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C Zheng,
A Voutetakis,
M Metzger,
S Afione,
A P Cotrim,
M A Eckhaus,
V M Rivera,
T Clackson,
J A Chiorini,
R E Donahue, C E Dunbar,
B J Baum
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ABSTRACT: Salivary glands are useful target organs for local and systemic gene therapeutics. For such applications, the regulation of transgene expression is important. Previous studies by us in murine submandibular glands showed that a rapamycin transcriptional regulation system in a single serotype 2, adeno-associated viral (AAV2) vector was effective for this purpose. This study evaluated if such a vector was similarly useful in rhesus macaque parotid glands.
A recombinant AAV2 vector (AAV-TF-RhEpo-2.3w), encoding rhesus erythropoietin (RhEpo) and a rapamycin-inducible promoter, was constructed. The vector was administered to macaques at either of two doses [1.5 x 10(11) (low dose) or 1.5 x 10(12) (high dose) vector genomes] via cannulation of Stensen's duct. Animals were followed up for 12-14 weeks and treated at intervals with rapamycin (0.1 or 0.5 mg kg(-1)) to induce gene expression. Serum chemistry, hematology, and RhEpo levels were measured at interval.
AAV-TF-RhEpo-2.3w administration led to low levels of rapamycin-inducible RhEpo expression in the serum of most macaques. In five animals, no significant changes were seen in serum chemistry and hematology values over the study. One macaque, however, developed pneumonia, became anemic and subsequently required euthanasia. After the onset of anemia, a single administration of rapamycin led to significant RhEpo production in this animal.
Administration of AAV-TF-RhEpo-2.3w to macaque parotid glands was generally safe, but led only to low levels of serum RhEpo in healthy animals following rapamycin treatment.
Oral Diseases 04/2010; 16(3):269-77. · 2.49 Impact Factor
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A Voutetakis,
C Zheng,
A P Cotrim,
F Mineshiba,
S Afione,
N Roescher,
W D Swaim,
M Metzger,
M A Eckhaus,
R E Donahue, C E Dunbar,
J A Chiorini,
B J Baum
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ABSTRACT: Salivary glands are potentially useful target sites for multiple clinical applications of gene transfer. Previously, we have shown that serotype 2 adeno-associated viral (AAV2) vectors lead to stable gene transfer in the parotid glands of rhesus macaques. As AAV5 vectors result in considerably greater transgene expression in murine salivary glands than do AAV2 vectors, herein we have examined the use of AAV5 vectors in macaques at two different doses (n = 3 per group; 10(10) or 3 x 10(11) particles per gland). AAV5 vector delivery, as with AAV2 vectors, led to no untoward clinical, hematological or serum chemistry responses in macaques. The extent of AAV5-mediated expression of rhesus erythropoietin (RhEpo) was dose-dependent and similar to that seen with an AAV2 vector. However, unlike results with the AAV2 vector, AAV5 vector-mediated RhEpo expression was transient. Maximal expression peaked at day 56, was reduced by approximately 80% on day 84 and thereafter remained near background levels until day 182 (end of experiment). Quantitative PCR studies of high-dose vector biodistribution at this last time point showed much lower AAV5 copy numbers in the targeted parotid gland (approximately 1.7%) than found with the same AAV2 vector dose. Molecular analysis of the conformation of vector DNA indicated a markedly lower level of concatamerization for the AAV5 vector compared with that of a similar AAV2 vector. In addition, cellular immunological studies suggest that host response differences may occur with AAV2 and AAV5 vector delivery at this mucosal site. The aggregate data indicate that results with AAV5 vectors in murine salivary glands apparently do not extend to macaque glands.
Gene therapy 09/2009; 17(1):50-60. · 4.75 Impact Factor
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Cytotherapy 02/2007; 9(4):305-15. · 3.63 Impact Factor
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ABSTRACT: Systemic mastocytosis (SM) is a disease characterized by tissue infiltration of neoplastic mast cells originating from hematopoietic stem cells. Patients with advanced SM have a poor prognosis, and there is no mast cell ablative therapy available for most patients who carry an activating point mutation in the c-kit gene. We report results of a prospective study evaluating the safety, engraftment, and possibility of inducing a graft-versus-mast cell (GvMC) effect after allogeneic nonmyeloablative hematopoietic cell transplantation (HCT) from an HLA-identical sibling. Three patients with advanced SM were transplanted. All achieved complete donor T cell chimerism followed by clinical evidence for GvMC effect. However, all patients experienced disease progression with the longest response duration of 39 months. The GvMC effect can be observed after nonmyeloablative HCT with limited efficacy. Effective cytoreductive therapy prior to HCT may be required for long-term disease control and cure.
Bone Marrow Transplantation 03/2006; 37(4):353-8. · 3.75 Impact Factor
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ABSTRACT: In recent years, a pathophysiological role for T cells in immune thrombocytopenia (ITP) has been established. We applied cDNA size distribution analysis of the T cell receptor (TCR) beta-variable (VB) complementarity-determining region 3 (CDR3) in order to investigate T cell repertoire diversity among immune thrombocytopenia patients who had either responded or not responded to splenectomy, and compared them to normal controls. ITP patients who had had a durable platelet response to splenectomy showed a mean 2.8 +/- 2.1 abnormal CDR3 size patterns per patient, similar to healthy volunteers (2.9 +/- 2.0 abnormal CDR3 size patterns). In contrast, patients unresponsive to splenectomy demonstrated evidence of significantly more clonal T cell expansions than patients who had responded to splenectomy or controls (11.3 +/- 3.3 abnormal CDR3 size patterns per patient; P < 0.001). Of the VB subfamilies analysed, VB3 and VB15 correlated with response or non-response to splenectomy, each demonstrating oligoclonality in non-responding patients (P < 0.05). These findings suggest that removal of the spleen may lead directly or indirectly to reductions in T cell clonal expansions in responders, or that the extent of T cell clonality impacts responsiveness to splenectomy in patients with ITP.
Clinical & Experimental Immunology 09/2003; 133(3):461-6. · 3.36 Impact Factor
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ABSTRACT: Reduced immunosuppression may improve immune recovery and increase the graft-versus-leukemia effect after allogeneic stem cell transplantation. Furthermore, the requirement for post-transplant immunosuppression following extensive T-cell depletion remains unclear. We therefore evaluated the role of cyclosporine (CSA) in recipients of HLA-identical T-cell-depleted peripheral blood stem cell transplants (PBSCT), followed by donor lymphocyte infusions (DLIs) scheduled on days +45 and +100. Before day+45, successive cohorts of patients received decreasing amounts of CSA: standard-dose (SD) CSA, low-dose (LD) CSA, or no CSA until day+45. LD CSA was as effective as SD CSA in preventing acute graft-versus-host disease (GVHD). However, moderate-to-severe acute GVHD was significantly more frequent before the day +45 DLI in patients receiving no CSA (33.3 vs 12.7%, P=0.036, including the only four grade III-IV cases). As a result of higher rates of early acute GVHD, more patients in the 'no CSA' group failed to receive any DLI (30.7 vs 7.1%, P=0.01). Overall, there was no difference in the incidence of acute GVHD, as patients receiving CSA developed more GVHD after DLI. Similarly, no significant differences were found in chronic GVHD, transplant-related mortality, or survival. These results define a role for CSA in preventing GVHD at low T-cell doses following PBSCT.
Bone Marrow Transplantation 06/2003; 31(9):783-8. · 3.75 Impact Factor
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ABSTRACT: Adult marrow-derived cells have been shown to contribute to various nonhematologic tissues and, conversely, primitive cells isolated from nonhematopoietic tissues have been shown to reconstitute hematopoiesis. Circulating endothelial progenitor cells (EPCs) have been reported to be at least partially donor derived after allogeneic bone marrow transplantation, and shown to contribute to neovascularization in murine ischemia models. However, it is unknown whether these EPCs are actually clonally derived from the same population of stem and progenitor cells that reconstitute hematopoiesis, or from another cell population found in the marrow or mobilized blood that is transferred during transplantation. To approach this question, we characterized circulating EPCs and also endothelial cells from large vessels harvested at autopsy from rhesus macaques previously transplanted with retrovirally transduced autologous CD34-enriched peripheral blood stem cells (PBSCs). Endothelial cells were grown in culture for 21-28 days and were characterized as CD31(+) CD14(-) via flow cytometry, as acLDL(+) UEA-1(+) via immunohistochemistry, and as Flk-1(+) by reverse transcriptase-polymerase chain reaction (RT-PCR). Animals had stable vector marking in hematopoietic lineages of 2-15%. Neither cultured circulating EPCs collected in steady state (n = 3), nor endothelial cells grown from large vessels (n = 2), had detectable retroviral marking. EPCs were CD34(+) and could be mobilized into the circulation with granulocyte colony-stimulating factor. Under ex vivo culture conditions, in which CD34(+) cells were optimized to transduce hematopoietic progenitor and stem cells, there was a marked depletion of EPCs. Transduction of EPCs was much more efficient under conditions supporting endothelial cell growth. Further elucidation of the origin and in vivo behavior of EPCs may be possible, using optimized transduction conditions and a vascular injury model.
Human Gene Therapy 12/2002; 13(17):2041-50. · 4.22 Impact Factor
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Y Hanazono,
T Nagashima,
M Takatoku,
H Shibata,
N Ageyama,
T Asano,
Y Ueda, C E Dunbar,
A Kume,
K Terao,
M Hasegawa,
K Ozawa
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ABSTRACT: A major problem limiting hematopoietic stem cell (HSC) gene therapy is the low efficiency of gene transfer into human HSCs using retroviral vectors. Strategies, which would allow in vivo expansion of gene-modified hematopoietic cells, could circumvent the problem. To this end, we developed a selective amplifier gene (SAG) consisting of a chimeric gene composed of the granulocyte colony-stimulating factor (G-CSF) receptor gene and the estrogen receptor gene hormone-binding domain. We have previously demonstrated that primary bone marrow progenitor cells transduced with the SAG could be expanded in response to estrogen in vitro. In the present study, we evaluated the efficacy of the SAG in the setting of a clinically applicable cynomolgus monkey transplantation protocol. Cynomolgus bone marrow CD34(+) cells were transduced with retroviral vectors encoding the SAG and reinfused into each myeloablated monkey. Three of the six monkeys that received SAG transduced HSCs showed an increase in the levels of circulating progeny containing the provirus in vivo following administration of estrogen or tamoxifen without any serious adverse effects. In one monkey examined in detail, transduced hematopoietic progenitor cells were increased by several-fold (from 5% to 30%). Retroviral integration site analysis revealed that this observed increase was polyclonal and no outgrowth of a dominant single clonal population was observed. These results demonstrate that the inclusion of our SAG in the retroviral construct allows selective in vivo expansion of genetically modified cells by a non-toxic hormone treatment.
Gene Therapy 09/2002; 9(16):1055-64. · 3.71 Impact Factor
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ABSTRACT: Defining the optimum regimen and time for repeat peripheral blood progenitor cell mobilization would have important clinical applications.
Remobilization with SCF and G-CSF at 2 weeks after an initial mobilization in mice and at 2 or 4 weeks after an initial mobilization in nonhuman primates was examined. In mice, competitive repopulation assays were used to measure long-term progenitor cell-repopulating activity. In monkeys, mobilization of hematopoietic progenitor CFUs was used as a surrogate marker for progenitor cell-repopulating ability.
Efficacy of progenitor cell remobilization differed in the two animal species. In mice, peripheral blood progenitor cell-repopulating ability with repeat mobilization at 2 weeks was 70 percent of that with the initial mobilization. In monkeys, there was no significant difference in peripheral blood progenitor cell mobilization between the initial and the repeat mobilizations at 2 weeks. In mobilizations separated by 4 weeks, however, peripheral blood progenitor cell mobilization was higher than that with initial mobilizations.
In animal models, mobilization of peripheral blood progenitor cells with remobilization after a 2-week interval is similar to or moderately decreased from that with the initial mobilization. Progenitor cell collection at this time point may be useful in certain clinical circumstances. A 4-week interval between remobilizations may be preferable. Clinical trials in humans would be useful to clarify these issues.
Transfusion 12/2001; 41(11):1438-44. · 3.22 Impact Factor
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ABSTRACT: Chromosomal translocations involving the platelet-derived growth factor beta receptor (PDGFbetaR) gene have been reported in some patients with chronic myelomonocytic leukemia (CMML). The resultant fusion proteins have constitutive PDGFbetaR tyrosine kinase activity, but the partner genes previously reported (tel, Huntingtin interacting protein 1 [HIP-1], H4/D10S170) have poorly understood roles in the oncogenic activity of the fusion proteins. A novel PDGFbetaR fusion protein has been characterized in a patient with CMML and an acquired t(5;17)(q33;p13). Southern blot analysis on patient leukemia cells demonstrated involvement of the PDGFbetaR gene. Using 5' rapid amplification of complementary DNA ends-polymerase chain reaction (RACE-PCR) on patient RNA, rabaptin-5 was identified as a novel partner fused in-frame to the PDGFbetaR gene. The new fusion protein includes more than 85% of the native Rabaptin-5 fused to the transmembrane and intracellular tyrosine kinase domains of the PDGFbetaR. Transduction with a retroviral vector expressing rabaptin-5/PDGFbetaR transformed the hematopoietic cell line Ba/F3 to growth factor independence and caused a fatal myeloproliferative disease in mice. Rabaptin-5 is a well-studied protein shown to be an essential and rate-limiting component of early endosomal fusion through interaction with the Ras family GTPases Rab5 and Rab4. The fusion protein includes 3 of 4 coiled-coil domains (involved in homodimerization of native rabaptin-5), 2 caspase-3 cleavage sites, and a binding site for the tumor suppressor gene tuberin (tuberous sclerosis complex-2). Early endosomal transport is critical in regulation of various growth factor receptors, through ligand-induced clathrin-mediated endocytosis, and thus this new fusion protein links together 2 important pathways of growth regulation.
Blood 11/2001; 98(8):2518-25. · 9.90 Impact Factor
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R Nakamura,
E Bahceci,
E J Read,
S F Leitman,
C S Carter,
R Childs, C E Dunbar,
R Gress,
R Altemus,
N S Young,
A J Barrett
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ABSTRACT: We sought to optimize and standardize stem cell and lymphocyte doses of T cell-depleted peripheral blood stem cell transplants (T-PBSCT), using delayed add-back of donor T cells (DLI) to prevent relapse and enhance donor immune recovery. Fifty-one patients with haematological malignancies received a T-PBSCT from an HLA-identical sibling, followed by DLI of 1 x 10(7) and 5 x 10(7) CD3(+) cells/kg on d +45 and +100 respectively. Twenty-four patients were designated as standard risk and twenty-seven patients with more advanced leukaemia were designated as high risk. Median recipient age was 38 years (range 10-56). Median (range) of CD34(+) and CD3(+) cell transplant doses were 4.6 (2.3-10.9) x 10(6)/kg and 0.83 (0.38-2) x 10(5)/kg respectively. The cumulative probability of acute GVHD was 39%. No patient died from GVHD or its consequences. The probability of developing chronic GVHD was 54% (18% extensive). The probability of relapse was 12% for the standard-risk patients and 66% for high-risk patients. In multivariate analysis, the risk factors for lower disease-free survival and overall survival were high-risk disease, CD34(+) dose < 4.6 x 10(6)/kg and CD3(+) dose < 0.83 x 10(5)/kg. Predictive factors for chronic GVHD were a T-cell dose at transplant > 0.83 x 10(5) CD3(+) cells/kg. These results further define the impact of CD34 and CD3 cell dose on transplant outcome and show that careful dosing of stem cells and lymphocytes may permit the control and optimization of transplant outcome.
British Journal of Haematology 10/2001; 115(1):95-104. · 4.94 Impact Factor
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ABSTRACT: Many nonmalignant hematologic disorders could potentially be treated by genetic correction of as few as 5-10% of target lineage cells. However, immune system clearance of cells expressing gene products perceived as foreign could be limiting. There is evidence that tolerance to foreign proteins can result when myeloablative conditioning is used, but this limits the overall applicability of such techniques. Therefore, we sought to evaluate the engraftment of hematopoietic stem cells carrying a foreign transgene after low-dose irradiation by comparing in vivo survival of murine long-term repopulating cells (LTRC) transduced with either a retroviral vector expressing the bacterial neomycin phosphotransferase gene (neo) or a vector containing neo gene sequences but modified to prevent protein expression (nonexpression). First, marrow cells from congenic donors were transduced with either vector and transplanted into recipients treated with standard dose irradiation of 800 rads. High-level engraftment and gene marking resulted, without differences in the marking levels or pattern of persistence of the cells between cells transduced with either vector. Low-dose irradiation at 100 rads was tested using higher cell doses. Marking levels as high as 10% overall were obtained, again with no differences between mice receiving cells transduced with the neo versus the nonexpression vectors. To investigate a potentially more immunogenic protein, marrow cells were transduced with a vector containing the green fluorescent protein (GFP) gene, and their persistence was studied in recipient mice receiving 100 rads. Stable GFP expression in 5-10% of circulating cells was observed long term. We conclude that even with very low dose conditioning, engraftment by genetically modified LTRC cells at clinically significant levels can be achieved without evidence for clearance of cells known to be expressing immunogenic proteins.
Human Gene Therapy 10/2001; 12(13):1663-72. · 4.22 Impact Factor
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ABSTRACT: Recent reports suggest that cells in active cell cycle have an engraftment defect compared with quiescent cells. We used nonhuman primates to investigate this finding, which has direct implications for clinical transplantation and gene therapy applications. Transfer of rhesus CD34(+) cells to culture in stem cell factor (SCF) on the CH-296 fibronectin fragment (FN) after 4 days of culture in stimulatory cytokines maintained cell viability but decreased cycling. Using retroviral marking with two different gene transfer vectors, we compared the engraftment potential of cytokine-stimulated cells versus those transferred to nonstimulatory conditions (SCF on FN alone) before reinfusion. In vivo competitive repopulation studies showed that the level of marking originating from the cells continued in culture for 2 days with SCF on FN following a 4-day stimulatory transduction was significantly higher than the level of marking coming from cells transduced for 4 days and reinfused without the 2-day culture under nonstimulatory conditions. We observed stable in vivo overall gene marking levels of up to 29%. This approach may allow more efficient engraftment of transduced or ex vivo expanded cells by avoiding active cell cycling at the time of reinfusion.
Journal of Clinical Investigation 09/2001; 108(3):447-55. · 15.39 Impact Factor
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ABSTRACT: The impairment of engraftment ability after ex vivo or in vivo stimulation of hematopoietic stem cells, potentially related to induction of active cell cycling, has recently been a topic of intense interest. Our group has used the non-human primate autologous transplantation model and genetic marking to investigate a number of questions in hematopoiesis with direct relevance to human clinical applications. The issue of a potential reversible engraftment defect would have many implications for gene therapy and allogeneic or autologous transplantation. Initial in vitro studies with rhesus CD34+ cells indicated that after 4 days of stimulatory culture in stem cell factor (SCF), megakaryocyte growth and development factor (MDGF), and flt3 ligand (FLT), transfer of the cells to SCF alone on retronectin (FN) support resulted in decreased active cycling and a halt to proliferation, without a loss of viability or induction of apoptosis. We then directly compared the engraftment potential of cytokine-stimulated cells versus those transferred to SCF on FN alone before reinfusion, SCF/G-CSF mobilized CD34+ cells from three animals were split into two parts and transduced with either of two retroviral marking vectors for 4 days in the presence of SCF/FLT/MGDF on FN. One aliquot was cryopreserved, and the other was continued in culture without transduction for 2 days in the presence of SCF alone on FN. After total body irradiation, both aliquots were thawed and reinfused into each animal. In all animals, the level of marking from the fraction continued in culture for 2 days with SCF on FN was significantly higher than the level of marking from the aliquot transduced for 4 days without the 2-day period in SCF alone. This approach may allow more efficient engraftment of successfully transduced or ex vivo expanded cells by avoiding active cell cycling at the time of reinfusion.
Annals of the New York Academy of Sciences 07/2001; 938:236-44; discussion 244-5. · 3.15 Impact Factor
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C E Dunbar
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ABSTRACT: Primitive haematopoietic progenitor and stem cells (HSC) have been pursued as highly desirable targets for genetic therapy as technology allowing safe and controllable transfer of exogenous genes into eukaryotic cells was developed a decade ago. Retroviral vectors have been used for the majority of preclinical and clinical studies directed at these cells, because these vectors have a number of the necessary properties, including chromosomal integration, helper-free production systems, and lack of toxicity. Until recently, however, results with these vectors in clinical trials and large animal models indicated efficiency of gene transfer as a major hurdle to be overcome. We have focused on using the rhesus macaque autologous transplantation model to optimize gene transfer to primitive haematopoietic cells, and investigate questions regarding in vivo stem cell behaviour, in a system with proven predictive value for human haematopoiesis. By optimization of transduction conditions using standard vectors, gene transfer efficiency to primitive repopulating cells has reached the clinically relevant range of 5-20% long-term. Alternative vector systems, have also yielded promising results. We have also found that relatively simple manipulation of cell cycle status prior to reinfusion of marked cells results in significantly improved engraftment of transduced cells: this finding may have an impact particularly in the nonablative setting. The high level marking has permitted insertion site analysis and clonal tracking in vivo. Inverse PCR and/or a ligation-mediated PCR procedure have demonstrated that a large number of transduced clones (over 50) contribute to multiple lineages in vivo for up to at least 2 years post-transplantation. Thus far we have little evidence for rapid clonal succession or lineage-restricted engraftment of transduced cells. These and other advances should result in successful gene therapy for a variety of acquired and congenital disorders affecting HSCs and their progeny lineages.
Journal of Internal Medicine 05/2001; 249(4):329-38. · 5.48 Impact Factor
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ABSTRACT: Transfer of genes into hematopoietic stem cells or primary lymphocytes has been a primary focus of the gene therapy field for more than a decade because of the wide variety of congenital and acquired diseases that potentially could be cured by successful gene transfer into these cell populations. However, despite success in murine models and in vitro, progress has been slow, and early clinical trials were disappointing due to inefficient gene transfer into long-term repopulating cells. The unique predictive value of nonhuman primate or other large animal models has become more apparent, and major advances in gene transfer efficiency have been made by utilizing these powerful but expensive and complex systems. This review summarizes more recent findings from nonhuman primate investigations focusing on hematopoietic stem cells or lymphocytes as target populations, and highlights specific preclinical issues, including safety. Results from studies using standard retroviral vectors, lentiviral vectors, adenoviral vectors, and adeno-associated viral vectors are discussed. Judicious application of these models should continue to be a priority, and advances should now be tested in proof-of-concept clinical trials.
Human Gene Therapy 05/2001; 12(6):607-17. · 4.22 Impact Factor
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ABSTRACT: Transduction of murine stem cells with a multidrug-resistance 1 gene (MDR1) retrovirus results in dramatic ex vivo and in vivo expansion of repopulating cells accompanied by a myeloproliferative disorder. Given the use of MDR1-containing vectors in human trials, investigations have been extended to nonhuman primates. Peripheral blood stem cells from 2 rhesus monkeys were collected, CD34-enriched, split into 2 portions, and transduced with either MDR1 vectors or neo vectors and continued in culture for a total of 10 days before reinfusion. At engraftment, the copy number in granulocytes was extremely high from both MDR vectors and neo vectors, but the copy number fell to 0.01 to 0.05 for both. There were no perturbations of the leukocyte count or differential noted. After 3 cycles of stem cell factor/granulocyte colony-stimulating factor, there were no changes in the levels of MDR1 vector- or neo vector-containing cells. There was no evidence for expansion of MDR1 vector-transduced cells. Long-term engraftment with MDR1 vector- and neo vector-transduced cells occurred despite prolonged culture.
Blood 04/2001; 97(6):1888-91. · 9.90 Impact Factor
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ABSTRACT: Early clinical gene therapy and gene marking trials using retroviral vectors to transduce hematopoietic stem cells (HSC) revealed two major shortcomings of this new treatment modality. One was insufficient expression or even silencing of the integrated vector sequences, and the second was the low gene transfer efficiency achieved to in vivo repopulating cells. It became clear that neither rodent models nor human in vitro surrogate assays for stem cells were predictive of in vivo transgene levels in human target cells. Using the rhesus monkey model we have focused on improving gene transfer efficiency into HSC. Immune rejection of trans duced cells has been shown to occur in mature peripheral target cells such as lymphocytes or myocytes. Our studies and those from other investiga tors suggest that transgenes introduced via HSC induces immunologic tolerance towards the foreign product. In vivo priming of target cells, i.e. mobilization of HSC into the circulation with granulocyte colony stimulating factor and stem cell factor, as well as optimization of the in vitro transduction conditions, now allow a stable in vivo gene transfer efficiency of up to 10-15% in both lymphoid and myeloid circulating cells in non-human primates, levels that would be adequate for many clinical applications.
Immunological Reviews 01/2001; 178:29-38. · 11.15 Impact Factor
