12 research outputs found

    Modification of T lymphocytes with lentiviral vectors for expression of anti-CD19 chimeric antigen receptor (CAR)

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    The use of immunotherapy with modified T lymphocytes with chimeric antigen receptor (CAR) has been proven effective in the treatment of leukemias and lymphomas resistant to chemotherapy. CAR possess an extracellular domain derived from variable regions of antibodies and costimulation intracellular domains of T lymphocytes. CD19 protein has been shown to be an ideal target because it is expressed on most B-cell tumors as well as normal B cells, but not in other types of cells. Recent clinical studies involving anti-CD19 CAR T-cells have shown excellent responses in a variety of B-cell tumors, even in patients with relapse after high-dose chemotherapy. This study aimed to produce CD4+ lymphocyte lineage Jurkat (ATCC® TIB-152 ™) modified with a second generation anti-CD19 CAR with 4-1BB as intracellular costimulation domain. Lentiviral vectors were produced in HEK293T (ATCC® CRL-3216 ™) transiently transfected with plasmids containing the coding sequence of the CAR, viral envelope VSV-G, and viral capsid. The viral titer was calculated by real time PCR after transduction of HEK293T cells, resulting in 1.65 x 105 IU/mL. The literature indicates an MOI (multiplicity of infection) from 5 to 10 IU/cell for transduction of lymphocytes. A new batch of virus was produced, and the supernatant was ultracentrifuged at 19200 rpm (Beckman Coulter, SW28 rotor) in order to concentrate the viral particles. The viral titer of the concentrated batch was 1.26 x 108 IU/mL. This new titer is compatible with the necessary to infect 107 cells, amount of pre-expansion cells necessary to obtain the number of cells suitable for infusion into patients (2.5 x 109 to 5 x 109 cells). Then, the infection of Jurkat was performed in a 6-well plate with RPMI 1640 supplemented with 10% fetal bovine serum (FBS), 2 µg/mL Polybrene®, and centrifugation at 1000 rpm for 20 minutes at room temperature. After 16 hours of incubation (37°C, 5% CO2 and 85% humidity), the medium was exchanged for fresh RPMI 1640 10% FBS. After additional 48 hours of incubation under the same conditions, the cells were collected and was their DNA was extracted. We obtained by real-time PCR that the number of integrated viral copies per genome was 35.3 ± 4.5 (mean ± standard deviation) for transduction with MOI of 5 IU/cell. While for MOI of 10 IU/cell, it was obtained 42.6 ± 0.1 copies per genome. It was observed that there was not a significant increase in viral copies when the MOI increased from 5 to 10. This may occur because cell’s surface receptors have been saturated by the large number of viruses. The lentiviral vector used by us has been shown to transduce T lymphocyte satisfactorily. The next steps of the study are the transduction of T lymphocytes from healthy donors and verification of the CAR receptor effectiveness to bind to CD19 of cell B lymphocyte lineages. Grant #2016/08374-5, São Paulo Research Foundation (FAPESP)

    Transient transfection of serum-free suspension HEK 293 cell culture for efficient production of human rFVIII

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    Abstract\ud \ud \ud \ud Background\ud \ud Hemophilia A is a bleeding disorder caused by deficiency in coagulation factor VIII. Recombinant factor VIII (rFVIII) is an alternative to plasma-derived FVIII for the treatment of hemophilia A. However, commercial manufacturing of rFVIII products is inefficient and costly and is associated to high prices and product shortage, even in economically privileged countries. This situation may be solved by adopting more efficient production methods. Here, we evaluated the potential of transient transfection in producing rFVIII in serum-free suspension HEK 293 cell cultures and investigated the effects of different DNA concentration (0.4, 0.6 and 0.8 μg/106 cells) and repeated transfections done at 34° and 37°C.\ud \ud \ud \ud Results\ud \ud We observed a decrease in cell growth when high DNA concentrations were used, but no significant differences in transfection efficiency and in the biological activity of the rFVIII were noticed. The best condition for rFVIII production was obtained with repeated transfections at 34°C using 0.4 μg DNA/106 cells through which almost 50 IU of active rFVIII was produced six days post-transfection.\ud \ud \ud \ud Conclusion\ud \ud Serum-free suspension transient transfection is thus a viable option for high-yield-rFVIII production. Work is in progress to further optimize the process and validate its scalability.The authors would like to acknowledge FAPESP (2008/51505-7) and FINEP (01.07.0652.00) for financial support

    Quantitative correlation between transcriptional levels of ER chaperone, peroximal protein and FVIII productivity in human Hek-293 cell line

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    Hek-293 cell line presents good production platform for recombinant therapeutic proteins, however little is known about the components that contribute to the cellular control of recombinant protein production. In this study, we generated a Hek-293 producing recombinant factor VIII (FVIII) and we evaluated the immunoglobulin-binding protein (BiP) and phytanoil-CoA α-hydroxylase (PAHX) expression levels which are known for diminishing FVIII production. Our analyses showed that the recombinant cell population expresses 3.1 ± 1.4 fold of BIP mRNA (P = 0.0054) and 97.8 ± 0.5 fold of PAHX mRNA (P = 0.0016) compared to nontransduced cells. The amount of these proteins was inversely correlated to the secreted FVIII. In conclusion, BIP and PAHX expression are augmented in human cells producing FVIII and they antagonize the amount of therapeutic factor VIII in the cell culture.This study was supported by the Center for Cell-based Therapy (CTC) and Fundação de Amparo à Pesquisa do Estado de São Paulo – FAPESP. The authors acknowledge Dr. Garry P. Nolan for contributing with the pBMN-I-GFP vector and David Marco Antonio for statistical support. We thank Fernanda Udinal and Alessandra Almeida for English language support. We also thank Sandra Navarro Bresciani for preparing the figures.This study was supported by the Center for Cellbased Therapy (CTC) and Fundação de Amparo à Pesquisa do Estado de São Paulo – FAPESP. The authors acknowledge Dr. Garry P. Nolan for contributing with the pBMNIGFP vector and David Marco Antonio for statistical support. We thank Fernanda Udinal and Alessandra Almeida for English language support. We also thank Sandra Navarro Bresciani for preparing the figures

    Production of Lentiviral Vectors Encoding Recombinant Factor VIII Expression in Serum-Free Suspension Cultures

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    ABSTRACT Lentiviral vector-mediated gene transfer offers several advantages over other gene delivery vectors when considering gene and cell therapy applications. However, using these therapies in clinical applications involves large-scale vector production in an efficient and cost-effective manner. Here we describe a high yield production of a lentivirus encoding recombinant factor VIII in a scalable and GMP-compliant culture system, based on serum free suspension cultures and transient transfection with an inexpensive reagent, polyethylenimine (PEI), reaching a total viral yield of 2.48x108 particles

    The F309S mutation increases factor VIII secretion in human cell line

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    ABSTRACT OBJECTIVES: The capacity of a human cell line to secrete recombinant factor VIII with a F309S point mutation was investigated, as was the effect of the addition of chemical chaperones (betaine and sodium-4-phenylbutyrate) on the secretion of factor VIII. METHODS: This work used a vector with a F309S mutation in the A1 domain to investigate FVIII production in the HEK 293 human cell line. Factor VIII activity was measured by chromogenic assay. Furthermore, the effects of chemical drugs on the culture were evaluated. RESULTS: The addition of the F309S mutation to a previously described FVIII variant increased FVIII secretion by 4.5 fold. Moreover, the addition of betaine or sodium-4-phenylbutyrate increased the secretion rate of FVIIIΔB proteins in HEK 293 cells, but the same effect was not seen for FVIIIΔB-F309S indicating that all the recombinant protein produced had been efficiently secreted. CONCLUSION: Bioengineering factor VIII expressed in human cells may lead to an efficient production of recombinant factor VIII and contribute toward low-cost coagulation factor replacement therapy for hemophilia A. FVIII-F309S produced in human cells can be effective in vivo

    Transient transfection of serum-free suspension HEK 293 cell culture for efficient production of human rFVIII

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    Abstract Background Hemophilia A is a bleeding disorder caused by deficiency in coagulation factor VIII. Recombinant factor VIII (rFVIII) is an alternative to plasma-derived FVIII for the treatment of hemophilia A. However, commercial manufacturing of rFVIII products is inefficient and costly and is associated to high prices and product shortage, even in economically privileged countries. This situation may be solved by adopting more efficient production methods. Here, we evaluated the potential of transient transfection in producing rFVIII in serum-free suspension HEK 293 cell cultures and investigated the effects of different DNA concentration (0.4, 0.6 and 0.8 μg/106 cells) and repeated transfections done at 34° and 37°C. Results We observed a decrease in cell growth when high DNA concentrations were used, but no significant differences in transfection efficiency and in the biological activity of the rFVIII were noticed. The best condition for rFVIII production was obtained with repeated transfections at 34°C using 0.4 μg DNA/106 cells through which almost 50 IU of active rFVIII was produced six days post-transfection. Conclusion Serum-free suspension transient transfection is thus a viable option for high-yield-rFVIII production. Work is in progress to further optimize the process and validate its scalability.</p
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