A novel human amphotropic packaging cell line: high titer, complement resistance, and improved safety.

Successful retroviral-mediated gene therapy will depend on safe, efficient packaging cell lines for vector particle production. Existing packaging lines for murine leukemia virus (MLV)-based vectors are predominantly derived from NIH/3T3 cells which carry endogenous MLV sequences that could participate in recombination to form replication-competent retrovirus (RCR). To identify cells devoid of such sequences, we screened genomic DNA from eight cell lines. DNA from the human 293 cell line did not cross-hybridize with MLV sequences, and these cells were able to secrete Gag particles after transfection. We derived a stable amphotropic packaging cell line (called ProPak-A) in 293 cells in which the Gag-Pol and Env (packaging) functions are expressed separately from a heterologous (non-MLV) promoter, to maximally reduce homology between packaging and vector sequences. ProPak-A-based producer cells are efficient, yielding higher stable titers than PA317-based producers. In addition, a vector that consistently gave rise to RCR in PA317 cells never resulted in detectable RCR in ProPak-A-based producer cultures. We have also shown that ProPak-A-packaged particles are not inactivated by human serum. Thus, the packaging cells we describe are as efficient and safer than the amphotropic packaging cells most commonly used in clinical gene therapy work and are also more appropriate for in vivo gene delivery.