James Figge

SV40 large tumor antigen forms a specific complex with the product of the retinoblastoma susceptibility gene

Monkey cells synthesizing SV40 large T antigen were lysed and the extracts immunoprecipitated with either monoclonal anti-T antibody or monoclonal antibody to p110-114, the product of the retinoblastoma susceptibility gene (Rb). T and p110-114 coprecipitated in each case, implying that the proteins are complexed with each other. Substitution and internal deletion mutants of T that contain structural alterations in a ten residue, transformation-controlling domain failed to complex with p110-114. In contrast, T mutants bearing structural changes outside of this domain bound to p110-114. These results are consistent with a model for transformation by SV40 which, at least in part, involves T/p110-114 complex formation and the perturbation of Rb protein and/or T function.

Lac repressor can regulate expression from a hybrid SV40 early promoter containing a lac operator in animal cells

The E. coli lac operator and repressor were adapted for function in mammalian cells. Plasmids containing an SV40 early region (pSVlacO) or a chloramphenicol acetyl transferase gene (pSVlacOCAT) linked to a hybrid SV40 early promoter bearing a lac operator were tested for function. Identical plasmids lacking an operator (pX-8 and pX-8CAT) were controls. In vitro, early transcription from pSVlacO, but not from pX-8, was inhibited by lac repressor, and repression was overcome by IPTG. Repression of large T synthesis or CAT activity occurred in vivo only when the respective operator-containing plasmid was cotransfected with a plasmid encoding lac repressor, or when the recipient cells stably synthesized lac repressor. IPTG substantially relieved repression in both cases. CAT enzyme repression was paralleled by a decrease in CAT mRNA abundance. Thus regulatory elements of the lac operon function physiologically in mammalian cells.

Stringent regulation of stably integrated chloramphenicol acetyl transferase genes by E. coli lac repressor in monkey cells

Monkey cell lines that constitutively synthesize 38.6 kd lac repressor protein and bear stably integrated chloramphenicol acetyl transferase (CAT) genes linked to a lac operator-containing SV40 early promoter-enhancer were generated. When grown in medium containing isopropyl beta-D-thiogalactoside (IPTG), these cells acquired a CAT+ phenotype. In contrast, when grown in parallel in medium lacking IPTG, the cells remained CAT-. Maximum induction of CAT activity occurred after 4 days of IPTG exposure. Three days after removal of IPTG, induced cells had reverted to CAT-. Specific CAT activity increased up to 60-fold after induction, while background activity in uninduced cells was similar to or only slightly above that of parental, CAT- cells. CAT activity increased stepwise over a wide range of IPTG concentrations. Thus lac repressor-operator complexes can form on primate chromosomes and stringently block transcription from an adjoining promoter.

Role of small t antigen in the acute transforming activity of SV40

A plasmid, pHR402, containing SV40 sequences that include a truncated early region bearing an intact t-coding sequence and a functionally intact late region, was introduced into thymidine kinase deficient (tk-) mouse L cells by cotransformation with a cloned tk gene. tk+ cotransformants synthesized SV40 t but not T antigen, and no truncated T-coding sequence products were detected. The viral sequences of pHR402 were reconstituted as a virus in COS1 cells, and acute infection of untransformed mouse cells with this viral stock (SV402) also led to the appearance of t but not T or a truncated T. Abortive transformation assays of such infected cells were negative, as were those performed on the same cells infected with either of two viral mutants (dl883 and dl884), each of which leads to T but not t synthesis. However, mixed infection with SV402 and either dl883 or dl884 led to a clear abortive and permanent transformation response. Thus, at least in part, t and T appear to function in a complementary fashion in eliciting transformation expression by SV40-infected cells.