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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Clinical uses of gene transfer to bone marrow transplants require the establishment of a reproducible method for infecting large numbers of very primitive hematopoietic cells at high efficiency using cell-free retrovirus-containing media. In this study we report the results of experiments with preparations of a high-titer (2-5 x 10(7)/ml) helper-free recombinant neo(r) retrovirus that indicate this goal can now be achieved based on measurements of gene transfer efficiencies to cells referred to as long-term culture initiating cells (LTC-IC) because they give rise to clonogenic cells after greater than or equal to 5 wk in long-term culture (LTC). Intermittent, repeated exposure of normal human marrow mononuclear cells to virus-containing supernatant over a 3-d period of cell maintenance on an IL-3/
granulocyte colony-stimulating factor
(
G-CSF
) producing stromal layer resulted in gene transfer efficiencies to LTC-IC of 41%; a level previously obtainable only using co-cultivation infection techniques. Marrow cells enriched greater than or equal to 500-fold for LTC-IC (1-2% pure) by flow cytometry showed gene transfer efficiencies of 27% when infected in a similar fashion over a shorter period (24 h), but in the presence of added soluble IL-3 and
G-CSF
without stromal feeders, and this increased to 61% when Steel factor was also present during the infection period. By using a less highly enriched population of LTC-IC obtained by a bulk immunoselection technique applicable to large-scale clinical marrow harvests, gene transfer efficiencies to LTC-IC of 40% were achieved and this was increased to 60% by short-term preselection in
G418
. Southern analysis of DNA from the nonadherent cells produced by these LTC over a 6-wk period provided evidence of clonal evolution of LTC-IC in vitro. Leukemic chronic myelogenous leukemia LTC-IC were also infected at high efficiency using the same supernatant infection strategy with growth factor supplementation. These data demonstrate the feasibility of using cell-free virus preparations for infecting clinical marrow samples suitable for transplantation, as well as for further analysis of human marrow stem cell dynamics in vitro.
...
PMID:Retroviral gene transfer to primitive normal and leukemic hematopoietic cells using clinically applicable procedures. 160 91
Amphotropic helper-free retrovirus vectors containing the bacterial neomycin phosphotransferase gene (neo) and the human adenosine deaminase gene (adenosine aminohydrolase, EC 3.5.4.4; ADA) were used to transduce canine marrow cells. In one approach, dogs were treated for 7 days with recombinant human
granulocyte colony-stimulating factor
to stimulate hematopoietic cell division. Bone marrow cells were collected and transduced by 24 hours of cocultivation on vector-producing cells followed by incubation in a vector-containing long-term marrow culture system for 4 days. Transduced autologous marrow (0.4 to 1.0 x 10(8) cells/kg) was infused into dogs administered otherwise lethal total body irradiation (TBI) of 920 cGy. Two of four dogs engrafted, and their marrows showed intermittently between 1% and 11%
G418
-resistant colony-forming unit granulocyte-macrophage (CFU-GM) colonies for up to 2 years after transplantation. In a different experimental approach, autologous marrow, obtained at the time of the PB neutrophil nadir 7 days after a single cyclophosphamide injection (40 mg/kg intravenously), was cocultivated for 24 hours on vector-producing cells and infused at doses of 0.06 to 0.18 x 10(8) cells/kg into dogs administered 920 cGy TBI. One of three dogs engrafted, and the marrow showed intermittently 1% to 10%
G418
-resistant CFU-GM colonies for at least 2 years. Culture results were confirmed by polymerase chain reaction (PCR) showing the presence of the neo gene in marrow cells, peripheral blood (PB) granulocytes, and PB and lymph node lymphocytes. Dilution experiments indicated that up to 10% of marrow, lymph node, and PB cells contained the neo gene, consistent with the culture results. Samples harboring the neo gene also contained the gene for human ADA. However, repeated analyses of PB and marrow cells for human ADA gene expression by starch gel electrophoresis were negative. PB samples of all dogs were free of helper virus, and no long-term side effects from the transduction were observed.
...
PMID:Retrovirus-mediated gene transduction into long-term repopulating marrow cells of dogs. 172 5
A fibroblast-mediated gene delivery method was used for the endogenous expression of human
granulocyte colony-stimulating factor
(
G-CSF
) as a model for cytokine supplement therapy. Human
G-CSF
cDNA was inserted into the plasmid expression vector BMGNeo, which contains a partial sequence of bovine papilloma virus and a selectable marker gene. The recombinant plasmid (BMGNeo-GCSF) was transfected into NIH/3T3 fibroblasts by the calcium phosphate coprecipitation method, and the stably transformed cells were isolated by
G418
selection. An appropriate clone producing a large amount of
G-CSF
was selected by enzyme immunoassay of the culture supernatants. Southern blot analysis suggested that the BMGNeo-GCSF plasmid replicated mainly as an episome, and Northern blot analysis demonstrated the high expression of human
G-CSF
mRNA in the cells. After the implantation of the
G-CSF
-producing fibroblasts into nude mice, prominent neutrophilia, about 30-fold the level of normal control, was observed within seven days. Moreover, the number of hematopoietic progenitor cells in spleen remarkably increased for all cell lineages in these mice. To regulate the in vivo expression of
G-CSF
, we designed a subcutaneous diffusion chamber apparatus that contains the
G-CSF
-producing fibroblasts. The leukocytosis (neutrophilia) induced in C3H mice after embedding the device quickly disappeared after ethanol treatment of the chamber. Furthermore, reinjection of the
G-CSF
-producing fibroblasts into the chamber caused a second neutrophilia.
...
PMID:Implantation of fibroblasts transfected with human granulocyte colony-stimulating factor cDNA into mice as a model of cytokine-supplement gene therapy. 247 83
Plasmid expression vectors combining human cytokine cDNAs and selectable marker genes on dicistronic transcription units were functionally characterized in vitro and in vivo. The internal ribosome entry sequence (IRES) of encephalomyocarditis virus mediated cap-independent translation of the downstream cistron. After cationic lipofection of cells with a dicistronic construct containing the Neor gene downstream of a human interleukin-2 (IL-2) cDNA, all
G418
-resistant clones secreted high amounts of IL-2. Reversal of the order of the cDNAs was associated with less efficient transgene expression and represented no advantage in comparison to separate expression cassettes. To combine direct in vitro selection of expression with in vivo elimination of cytokine-secreting cells, an improved chimeric cDNA of the Neor and herpes simplex virus (HSV) thymidine kinase (TK) genes was constructed and shown to confer sensitivity to ganciclovir concentrations that can be achieved in human patients. This chimeric marker was coupled on dicistronic constructs with a
granulocyte colony-stimulating factor
(
G-CSF
) cDNA as a molecule with easily detectable bioactivity in vivo. Subcutaneous implantation of pCMV.GCSF.ires TK/NEO-transfected CMS-5 cells into syngeneic BALB/c mice resulted in excessive leukocytosis and progressively growing tumors. Treatment with ganciclovir led to normalization of leukocyte counts in all animals, whereas complete regression of tumors was observed in only 3/5 mice. Hypermethylation of the transfected promoter was demonstrated in both ganciclovir-resistant tumors. Thus, transcription units combining selectable markers and genes of interest allow selection of high producer cells in vitro and efficient elimination of transgene-expressing cells in vivo. However, cells that hypermethylate transfected genes to terminate gene expression in vivo may escape conditional ablation.
...
PMID:Systematic evaluation of chimeric marker genes on dicistronic transcription units for regulated expression of transgenes in vitro and in vivo. 889 74
Transfer of "anti-HIV-1 genes" into hematopoietic stem cells of human immunodeficiency virus-1 (HIV-1)-infected individuals may be a potent therapeutic approach to render mature cells arising from transduced stem cells resistant to the destructive events associated with HIV-1 infection. To determine the feasibility of gene therapy for acquired immunodeficiency syndrome in individuals already infected with HIV-1,
granulocyte colony-stimulating factor
mobilized peripheral blood CD34+ cells were isolated from HIV-1-infected individuals and transduced with retroviral vectors containing three different anti-HIV-1-genes: the Rev binding domain of the Rev Responsive Element (RRE decoy) (L-RRE-neo), a double hammerhead ribozyme vector targeted to cleave the tat and rev transcripts (L-TR/TAT-neo), and the trans-dominant mutant of rev (M10) (L-M10-SN). As a control, a vector mediating only neomycin resistance (LN) was used. After 3 days of transduction on allogeneic stroma in the presence of stem cell factor, interleukin-6 (IL-6), and IL-3, the cultures were
G418
-selected, and then challenged with HIV-1(JR-FL) and a primary HIV-1 isolate. Compared with the control cultures, the L-RRE-neo-, L-TR/TAT-neo-, and L-M10-SN-transduced cultures displayed up to 1,000-fold inhibition of HIV-1 replication after challenge with HIV-1(JR-FL) and the primary HIV-1 isolate. Growth of the hematopoietic cells in long-term bone marrow culture was not perturbed by the presence of any of the anti-HIV-1 genes. This study shows that anti-HIV-1 genes can be introduced into CD34+ cells from individuals already infected with HIV-1, and strongly inhibit HIV-1 replication in primary monocytes derived from the CD34+ progenitors.
...
PMID:Inhibition of human immunodeficiency virus-1 (HIV-1) replication after transduction of granulocyte colony-stimulating factor-mobilized CD34+ cells from HIV-1-infected donors using retroviral vectors containing anti-HIV-1 genes. 911 67
To help establish an effective gene therapy protocol for patients with congenital metabolic diseases, we evaluated retrovirus-mediated transduction and long-term (LT) expression of the NeoR gene in cryopreserved and thawed CD34+ cells purified from
granulocyte colony-stimulating factor
(
G-CSF
)-mobilized peripheral blood (PB) of infant and cord blood (CB). The results were compared with those in bone marrow (BM) CD34+ cells. The final purity of the CD34+-enriched fraction from PB, CB, and BM, based on FACS analysis, was 88 +/- 14%, 73 +/- 13%, and 68 +/- 19% (mean +/- SEM), respectively. Cells were then cultured for 96 hours with supernatant containing the vector in the presence of interleukin (IL)-3, IL-6, and stem cell factor (SCF). The average efficiency of gene transfer into mobilized PB (n = 5) or CB CD34+ cells (n = 6) was significantly higher than that into BM CD34+ cells, as measured by
G418
-resistant colony-forming units for granulocyte/macrophage (CFU-GM; 59% or 58% vs. 39%; p < 0.05) and PCR-positive CFU-GM (83% or 79% vs. 53%; p < 0.05). When the evaluation was made in an LT culture system with irradiated allogeneic marrow stroma, these efficiencies were, respectively, 74% or 61% vs. 34% (p < 0.005 or < 0.02) for
G418
-resistant CFU-GM at week 5 of long-term culture, and 88% or 83% vs. 63% (p < 0.05) for PCR-positive CFU-GM. Fluorometric examination was performed for cell-cycle analysis before and after culture, and the results showed that the fraction of cycling cells was largest in freshly prepared BM (18%), whereas only a small portion of PB (4.6%) and CB (2%) was cycling. However, this value was 17% in BM, 22% in PB, and 13% in CB after culture. These results suggest that mobilized PB from small children and CB cells are suitable and realistic targets for clinical gene therapy and that tandem transduction procedures can be achieved by combining CB and PB.
...
PMID:Transduction of retrovirus-mediated NeoR gene into CD34+ cells purified from granulocyte colony-stimulating factor (G-CSF)-mobilized infant and cord blood. 950 13
Genetic alteration of stem cells ex vivo followed by bone marrow transplantation could potentially be used in the treatment of numerous diseases and malignancies. However, there are many unanswered questions as to the best source of hematopoietic cells for long-term reengraftment and the most effective way to introduce foreign genes into this target cell. We have compared retroviral-mediated gene transfer into CD34+-enriched cells derived from peripheral blood (PB), bone marrow (BM), or fetal umbilical cord blood (CB). Cells from all three sources that had been expanded ex vivo in the presence of stem cell factor (SCF), interleukin-3 (IL-3), IL-6, and
granulocyte colony-stimulating factor
(
G-CSF
) showed transduction efficiencies ranging from 5-45%, as measured by acquisition of
G418
resistance. The average efficiencies of gene transfer from multiple experiments for PB, BM, and CB were not statistically different. To determine the effect of ex vivo expansion on gene transfer into CB CD34+ cells, we compared the transduction efficiencies of cells exposed to virus immediately after harvest and CD34 selection or after 6 days of culture CD34+ CB cells were more effectively transduced after expansion in culture, showing gene transfer efficiencies 3- to 5-fold higher on day 6 compared with day 0. Last, we examined retroviral transduction via spinoculation of CB CD34+ cells and found it to be approximately as effective as our standard transduction with no significant loss of cell viability as measured by colony formation in semi-solid medium.
...
PMID:Comparison of retroviral-mediated gene transfer into cultured human CD34+ hematopoietic progenitor cells derived from peripheral blood, bone marrow, and fetal umbilical cord blood. 945 Sep 23
Recent studies have shown efficient gene transfer to primitive progenitors in human cord blood (CB) when the cells are incubated in retrovirus-containing supernatants on fibronectin-coated dishes. We have now used this approach to achieve efficient gene transfer to human CB cells with the capacity to regenerate lymphoid and myeloid progeny in nonobese diabetic (NOD)/severe combined immunodeficiency (SCID) mice. CD34(+) cell-enriched populations were first cultured for 3 days in serum-free medium containing interleukin-3 (IL-3), IL-6,
granulocyte colony-stimulating factor
, Flt3-ligand, and Steel factor followed by two 24-hour incubations with a MSCV-NEO virus-containing medium obtained under either serum-free or serum-replete conditions. The presence of serum during the latter 2 days made no consistent difference to the total number of cells, colony-forming cells (CFC), or long-term culture-initiating cells (LTC-IC) recovered at the end of the 5-day culture period, and the cells infected under either condition regenerated similar numbers of human CD34(+) (myeloid) CFC and human CD19(+) (B lymphoid) cells for up to 20 weeks in NOD/SCID recipients. However, the presence of serum increased the viral titer in the producer cell-conditioned medium and this was correlated with a twofold to threefold higher efficiency of gene transfer to all progenitor types. With the higher titer viral supernatant, 17% +/- 3% and 17% +/- 8%,
G418
-resistant in vivo repopulating cells and LTC-IC were obtained. As expected, the proportion of NEO + repopulating cells determined by polymerase chain reaction analysis of in vivo generated CFC was even higher (32% +/- 10%). There was no correlation between the frequency of gene transfer to LTC-IC and colony-forming unit-granulocyte-macrophage (CFU-GM), or to NOD/SCID repopulating cells and CFU-GM (r2 = 0.16 and 0.17, respectively), whereas values for LTC-IC and NOD/SCID repopulating cells were highly and significantly correlated (r2 = 0.85). These findings provide further evidence of a close relationship between human LTC-IC and NOD/SCID repopulating cells (assessed using a >/= 6-week CFC output endpoint) and indicate the predictive value of gene transfer measurements to such LTC-IC for the design of clinical gene therapy protocols.
...
PMID:Efficient retroviral-mediated gene transfer to human cord blood stem cells with in vivo repopulating potential. 955 9
The hybridoma cell line KM50 originally produces a monoclonal antibody at a concentration of approximately 40 mg ml(-1) in ascites. To investigate the possibility to apply this expression system to the production of useful proteins, the cDNA encoding human
granulocyte colony-stimulating factor
was inserted by homologous recombination into just downstream of the promoter of the active immunoglobulin heavy chain gene of KM50. Site directed integration of targeting DNAs resulted in the disruption of expression of the immunoglobulin heavy chain proteins with a frequency of 1 in 10 approximately 100
G418
-resistance transfectants. One of the monoclonal antibody-deficient transfectants produced25 ng ml(-1) of
granulocyte colony-stimulating factor
in the supernatant of its cell culture the number of molecules of which corresponds to that of the monoclonal antibody originally produced by KM50. However, when this transfectant was injected intraperitoneally, it produced only a 9 mug ml(-1) concentration of
granulocyte colony-stimulating factor
in ascites, which is approximately 3 orders of magnitude less than the monoclonal antibody. This method may be applicable to production of other recombinant proteins, although further optimization in the conditions of production would be needed in order to reach much higher yields.
...
PMID:Production of recombinant granulocyte colony-stimulating factor by knocking into the active immunoglobulin heavy chain gene locus in the hybridoma cell line. 1900 16
