Recombinant vaccinia viruses are extremely valuable tools for research in molecular biology and immunology. The extension of vaccinia vector technology to replication-deficient and safety-tested virus strains such as modified vaccinia virus Ankara (MVA) have made this versatile eukaryotic expression system even more attractive for basic and clinical research. Here, we report on easily obtaining recombinant MVA using stringent growth selection on rabbit kidney RK-13 cells. We describe the construction and use of new MVA vector plasmids that carry an expression cassette of the vaccinia virus host range gene, K1L, as a transient selectable marker. These plasmids allow either stable insertion of additional recombinant genes into the MVA genome or precisely targeted mutagenesis of MVA genomic sequences. Repetitive DNA sequences flanking the K1L gene were designed to remove the marker gene from the viral genome by homologous recombination under nonselective growth conditions. The convenience of this new selection technique is demonstrated by isolating MVA recombinants that produce green fluorescent protein and by generating MVA deletion mutants.
Live attenuated viruses used as vaccines are known for their efficacy to elicit protective immunity against viral diseases. More recently, with an increasing number of tumor-associated antigens (TAA) being identified and molecularly cloned (1) the development of vaccines for cancer immunotherapy has gained considerable interest. In particular, live recombinant viral vectors seem to be appropriate delivery systems for efficient presentation of TAA to the immune system. The promise of viral vectors is likely to be founded on their capacity for high-level expression of target genes combined with their intrinsic property to activate immunological control systems mimicking an infection with a disease causing agent.
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