Novel retroviral packaging cell lines: complementary tropisms and improved vector production for efficient gene transfer.

Abstract

We report increased transduction of human hematopoietic progenitor cells through a combination of novel retroviral vector packaging cell lines, and improved vector supernatant production. The new ProPak packaging cell lines produce either murine leukemia virus (MLV) xenotropic (ProPak-X cells) or amphotropic particles (ProPak-A cells), and ProPak-based producer cells were demonstrated to be free of replication-competent retrovirus (RCR) by stringent testing. Vector supernatants from ProPak or existing packaging cell lines producing different pseudotyped particles (amphotropic MLV, xenotropic MLV or gibbon ape leukemia virus) were compared for the ability to transduce clinically relevant human hematopoietic cells. All vector types transduced primary human CD34-positive or CD4-positive cells, regardless of tropism. However, consistently higher transduction of target cells was achieved with ProPak-derived amphotropic vector than with PA317-packaged amphotropic vector. The highest transduction of human hematopoietic progenitor cells was achieved with vector supernatant generated from a coculture of the ProPak-X and ProPak-A cell lines. This ping-pong amplification yielded supernatant containing vector targeted to two distinct receptors present on human cells, and did not result in detectable RCR formation. In addition, we describe conditions for improved vector supernatant production in a packed-bed bioreactor.