PURPOSE: To investigate homology and stress response of p53 (a 53 kDa tumor suppressor protein) orthologue in Sf9 Lepidopteran insect cell line that exhibits very high radioresistance. MATERIALS AND METHODS: Western immunoblotting, immunoprecipitation, degenerate RT-PCR (reverse transcription-polymerase chain reaction), electrophoretic gel mobility shift assay, flow cytometry and immuno-fluorescence microscopy were used for characterizing structural and functional features of Sfp53 (Spodoptera frugiperda p53) in gamma-irradiated or etoposide-treated Sf9 insect and BMG-1 (brain malignant glioma) human cells. Cells were pre-treated with caffeine for inhibiting ATM/ATR (ataxia-telangiectasia mutated protein/ATM and Rad-3-related protein) activation, wherever required. RESULTS: A 47-49 kDa protein band was observed with antibodies against three different epitopes, demonstrating conservation of respective domains in Sfp53. Immunoprecipitation also yielded similar-sized protein. Degenerate RT-PCR resulted in product of same size in both cell lines. Similar gel mobility shift of p53-binding oligonucleotide with BMG-1 and Sf9 cell lysates indicated analogous transcriptional activity of Sfp53. Constitutive Sfp53 level was higher than hp53 (human p53) and showed primarily cytoplasmic localization. Radiation-induced accumulation was considerably less in Sf9 even as an analogous ATM/ATR-dependent nuclear translocation was observed following gamma-irradiation and etoposide. CONCLUSIONS: A smaller-sized Sfp53 orthologue shows highly conserved native structure with DNA-binding, N-terminus and C-terminus domains, and has analogous p53 transcriptional activity. While its nuclear translocation and ATM/ATR dependence were similar to hp53, the cytoplasmic localization and subdued accumulation following gamma-irradiation indicate functional differences from human cells.
PURPOSE: To investigate homology and stress response of p53 (a 53 kDa tumor suppressor protein) orthologue in Sf9 Lepidopteran insect cell line that exhibits very high radioresistance. MATERIALS AND METHODS: Western immunoblotting, immunoprecipitation, degenerate RT-PCR (reverse transcription-polymerase chain reaction), electrophoretic gel mobility shift assay, flow cytometry and immuno-fluorescence microscopy were used for characterizing structural and functional features of Sfp53 (Spodoptera frugiperdap53) in gamma-irradiated or etoposide-treated Sf9 insect and BMG-1 (brain malignant glioma) human cells. Cells were pre-treated with caffeine for inhibiting ATM/ATR (ataxia-telangiectasia mutated protein/ATM and Rad-3-related protein) activation, wherever required. RESULTS: A 47-49 kDa protein band was observed with antibodies against three different epitopes, demonstrating conservation of respective domains in Sfp53. Immunoprecipitation also yielded similar-sized protein. Degenerate RT-PCR resulted in product of same size in both cell lines. Similar gel mobility shift of p53-binding oligonucleotide with BMG-1 and Sf9 cell lysates indicated analogous transcriptional activity of Sfp53. Constitutive Sfp53 level was higher than hp53 (humanp53) and showed primarily cytoplasmic localization. Radiation-induced accumulation was considerably less in Sf9 even as an analogous ATM/ATR-dependent nuclear translocation was observed following gamma-irradiation and etoposide. CONCLUSIONS: A smaller-sized Sfp53 orthologue shows highly conserved native structure with DNA-binding, N-terminus and C-terminus domains, and has analogous p53 transcriptional activity. While its nuclear translocation and ATM/ATR dependence were similar to hp53, the cytoplasmic localization and subdued accumulation following gamma-irradiation indicate functional differences from human cells.