Absence of a structural basis for intracellular recognition and differential localization of nuclear and plasma membrane-associated forms of simian virus 40 large tumor antigen

SV40 T-antigen as a dual oncogene: structure and function of the plasma membrane-associated population

SV40 T-antigen (T-ag) is localized in both the nucleus (nT-ag) and plasma membrane (pmT-ag) of cells and provides multiple functions necessary for cell transformation. The pmT-ag population is structurally very similar to the nT-ag. Transport to the cell surface is by an unknown mechanism that does not involve the secretory pathway. The disposition of T-ag in the membrane exposes both the amino and the carboxyl terminus on the exterior of the cell. Nuclear-transport-defective mutants of T-ag can transform established cells in culture, but not primary cells, suggesting that non-nuclear forms of T-ag may mediate some transformation-related process(es). A non-cytolytic protein extraction technique utilizing 1-butanol solubilized from SV40-transformed cells a multimeric complex composed of pmT-ag and at least five cellular proteins ranging in size from 35,000 (35K) to 60K M. Both amino- and carboxylterminal T-ag-specific monoclonal antibodies co-precipitated T-ag and the 35-60K Mr proteins, but antibodies against the internal portion of T-ag precipitated only uncomplexed T-ag. The growth state of the cells markedly influenced the expression of the T-ag-containing surface complexes; more complexes were recovered from actively dividing cells than from confluent cell cultures, and suspension cells yielded more complexes than cells on a substratum. The complex exhibited a highly dynamic association with the cell membrane, as demonstrated by pulse-chase analysis. The characteristics of growth-dependent expression and rapid turnover rate suggest a functional role for the membrane complex. The identities of the cellular proteins in the complex with pmT-ag are unknown, although one member (56K) is recognized by p53-specific monoclonal antibodies.

Influence of amino acids encoded in the 3' open reading frame of the SV40 early region on transformation and antigenicity of large T antigen

The mutant dlA2414 bears a frame-shift deletion of nucleotides 2936-2927 in the coding sequence for the simian virus 40 (SV40) large T antigen. Based on its nucleotide sequence, this mutant should produce a T antigen containing the first 627 authentic large T antigen amino acids followed by 97 amino acids encoded in the alternate open reading frame at the 3' end of the early region. This protein resembles the hypothetical T* protein that would be translated from an early SV40 mRNA if it were spliced to permit utilization of the open reading frame. We show that stable mouse cell lines can be generated that express the T antigen produced by dlA2414 and that this T antigen has an altered carboxy terminus. In addition, the expected tryptic peptides were missing from the large T antigen and replaced by more hydrophobic peptides. The T*-like protein produced by dlA2414 was apparently less stable than wild-type T antigen and did not stably complex with the cellular phosphoprotein p53. This protein retained the ability to immunize mice against a challenge of syngeneic SV40-tumor cells. The dlA2414 T antigen was expressed at the surface of cells as shown by in vitro lymphocyte-mediated cytotoxicity assay. The results presented here also showed that the expression of a T*-like protein at the cell surface is not likely to be essential for tumorigenesis of cells transformed by SV40.