Marcel Bastin scite author profile

To clarify the relationship between the various activities of the polyomavirus large T antigen and the contribution of this oncogene to neoplastic transformation, we constructed a series of mutants with small deletions or single-amino-acid substitutions in two separate regions of the protein. These sequences were targeted because they showed considerable similarity to conserved regions 1 and 2 of adenovirus ElA which are thought to be binding sites for the retinoblastoma gene product (pRB). The pRB-binding properties of the large T mutants were assessed with an in vitro coimmunoprecipitation assay. pRB binding was readily detected with wild-type large T, but coprecipitation was completely abolished by as little as a single amino acid substitution (Asp-141-*Glu or Glu-146-*Asp) in region 2 of the polyomavirus large T antigen. Mutants defective in pRB binding were unable to immortalize primary rat embryo fibroblasts, suggesting that association with pRB is an important component of immortalization mediated by polyomavirus large T. The mutations in region 1 affected pRB binding only marginally, yet some of them severely impaired immortalization, indicating that pRB binding may be essential but not sufficient for immortalization. * Corresponding author. blastomas and has subsequently been found to be similarly altered in a variety of tumors and tumor cell lines (for

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Role of the Three Polyoma Virus Early Proteins in Tumorigenesis

Asselin

Gélinas

Bastin

1983

Mol. Cell. Biol.

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Sequences from polyomavirus and simian virus 40 large T genes capable of immortalizing primary rat embryo fibroblasts

Asselin¹,

Bastin²

1985

J Virol

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We developed a procedure to evaluate quantitatively the capacity of subgenomic fragments from polyomavirus and simian virus 4Q (SV40) to promote the establishment of primary cells in culture. The large T antigen from both of these viruses can immortalize primary rat embryo fibroblasts. Both antigens have amino-terminal domains that retain biological activity after deletion of other parts of the polypeptide chain. However, this activity varies considerably among various mutants, presumably because of alterations in the stability or conformation of the truncated polypeptides. The polyomavirus middle T gene alone immortalizes at a low efficiency, which indicates that this oncogene can have both immortalization and transformation potentials depending on the assay system chosen. We generated deletions in the polyomavirus and SV40 large T genes to localize more precisely the functional domains of the proteins involved in the immortalization process. Our results shoW that the region of the SV40 1arge T antigen involved in immortalization is localized

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Polyoma middle T antigen requires cooperation from another gene to express the malignant phenotype in vivo.

Asselin¹,

Gélinas²,

Branton³

et al. 1984

Mol. Cell. Biol.

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The oncogenic potential of polyomavirus in newborn hamsters can be expressed by a recombinant encoding only the middle T protein. However, polyoma middle T requires the cooperation from small T to induce tumors in newborn rats. Similar complementary functions such as cocarcinogens or tumor promotors can be exerted by the simian virus 40 T antigens as well as by one or several products of the early region 1A of adenovirus 2.

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Tumorigenic activity of polyoma virus and SV40 DNAs in newborn rodents

et al. 1984

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Marcel Bastin

Polyomavirus large T mutants affected in retinoblastoma protein binding are defective in immortalization

Role of the Three Polyoma Virus Early Proteins in Tumorigenesis

Sequences from polyomavirus and simian virus 40 large T genes capable of immortalizing primary rat embryo fibroblasts

Polyoma middle T antigen requires cooperation from another gene to express the malignant phenotype in vivo.

Tumorigenic activity of polyoma virus and SV40 DNAs in newborn rodents

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