Fusion-mediated injection of SV40-DNA: Introduction of SV40-DNA into tissue culture cells by the use of DNA-loaded reconstituted Sendai virus envelopes

Abstract

Sendai virus envelopes can be solubilized by non-ionic detergents such as Triton X-100. Removal of the detergent from a supernatant containing the solubilized viral envelope giycoproteins results in the formation of reconstituted fusogenic viral envelopes. When SV40-DNA is added to the reconstitution system, it is trapped within the viral envelope. Incubation of SV40-DNA-loaded Sendai virus envelopes with permissive cells (CV1 and TC7 cells) resulted in fusion-mediated injection of the trapped DNA, as was demonstrated by the ability of the injected cells to synthesize SV40-T-antigen. Quantitative estimation revealed that up to 20% of the injected cells were able to synthesize T-antigen. Loaded viral envelopes were able to inject SV40-DNA and to promote synthesis of T-antigen also in cells which are resistant to infection by intact SV40 viruses, such as F1′ 1–4 cells. In addition, it is shown that reconstituted envelopes of Sendai virus are able to transfer membrane fragments from SV40 receptor-positive into SV40 receptor-negative cells, such as F1′ 1–4 cells. After implantation of SV40 receptors, the F1′ 1–4 cells became susceptible to infection by intact SV40 viruses.