458. Development of a Stable Producer Cell Line for Scalable Lentiviral Vector Production for Gene Therapy of Hemoglobinopathie
2016
Current manufacturing of clinical grade lentiviral vectors (LVVs) for gene therapy applications commonly relies on transient transfection of adherent 293T cells. Improvements in production efficiency and scalability would provide value in meeting the needs for increased amounts of vector required for clinical development. An inducible producer cell line grown in suspension culture represents a potentially more scalable manufacturing process for LVV production which eliminates the need for costly plasmid and transfection reagents. We have engineered a packaging cell line by introducing doxycycline-inducible Gag-Pol, Rev, and VSVG envelope genes into a suspension cell line. Packaging cell clones were isolated by single cell sorting and screened by qPCR for the presence of the delivered genes. Virus production was assessed by transient transfection of a lentiviral vector and doxycycline treatment. A titer of up to 5.0E6 transduction units per milliliter (TU/mL) was observed with packaging cell line stability demonstrated after greater than four months of continuous passage. Next, a self-inactivating lentiviral vector was excised from its plasmid backbone and ligated in vitro to a linear neomycin resistance cassette and used to transfect the lentiviral packaging cell line to generate a panel of producers. Following two weeks of G418 drug selection, adherent colonies were plucked and screened for viral production followed by single cell sorting to isolate individual producer clones. From five different plucked colonies with titers greater than 3.0E6 TU/mL, more than 100 clones were screened and 7 were identified that produced a harvest titer greater than 1.0E7 TU/mL. Four of these clones were successfully re-adapted to suspension and scaled up to 3L culture. LVV generated from individual producer clones was compared for the ability to transduce adult mobilized CD34+ hematopoietic stem cells (HSCs). Interestingly, the vector copy number (VCN) in CD34+ HSCs for the LVV derived from the producer cells varied between clones. Clones that produced the highest VCN have been chosen for further characterization in order to better understand the differences in HSC transduction. These lentiviral producer cell lines represent an important first step toward the creation of a manufacturing process that can better support clinical and commercial development of HSC lentiviral gene therapy.
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