Transcriptionally regulated immortalization overcomes side effects of temperature-sensitive SV40 large T antigen

The temperature-sensitive mutant of the SV40 virus large T antigen (TAg) tsA58 is frequently employed for the conditional immortalization of primary cells. By increasing the temperature to 39 °C, the activity of the mutant TAg is reduced and the status of such cells may then resemble more closely that of primary cells. As an alternative, we used a novel immortalization vector with a tetracycline-regulated expression of the wild-type TAg. This enabled us to investigate the effects of the immortalizing gene expression and of temperature shifts independently of each other. Even for wild-type TAg-derived cell lines the elevated temperatures led to various clone-dependent phenotypes. This suggests that in freshly established cell lines temperature-sensitive growth phenotypes can arise spontaneously and independently of a temperature-sensitive immortalizing gene. Similar effects were observed with spontaneously immortalized cells. On the other hand, not all of the ts-TAg-derived cell lines were proliferation arrested at the non-permissive temperature. Therefore, the assumption that temperature-sensitive growth is solely due to the ts-TAg must be verified for each ts-TAg-derived cell line individually. This complexity could be avoided by using the autoregulatory immortalization vector expressing the wild-type TAg.