1. The CXXC Zn binding motifs of the human papillomavirus type 16 E7 oncoprotein are not required for its in vitro transforming activity in rodent cells
- Author
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Caterina Cremonesi, Valentina Albarani, Francesca Ciccolini, Massimo Tommasino, Laura M. Levy, Robert Ralston, Lutz Gissmann, Joris Braspenning, and Antonio Marchini
- Subjects
Cancer Research ,Viral protein ,Papillomavirus E7 Proteins ,viruses ,Biology ,medicine.disease_cause ,Retinoblastoma Protein ,Conserved sequence ,Mice ,Genetics ,medicine ,Animals ,Amino Acid Sequence ,Binding site ,E2F ,Papillomaviridae ,Molecular Biology ,Peptide sequence ,Conserved Sequence ,Zinc finger ,Binding Sites ,Zinc Fingers ,3T3 Cells ,Oncogene Proteins, Viral ,Cell Transformation, Viral ,Fusion protein ,Cell biology ,Zinc ,RNA splicing ,Adenovirus E1A Proteins ,Dimerization - Abstract
The conserved region 3 (CR3) of the E7 protein of human papillomaviruses contains two CXXC motifs involved in zinc binding and in the homodimerization of the molecule. Studies have suggested that the intact CXXC motifs in the CR3 of HPV16 and HPV18 E7 are required for the in vitro transforming activity of these proteins. CR3 also contains a low affinity pRb binding site and is involved in the disruption of the E2F/Rb1 complex. E7 is structurally and functionally related to Adenovirus E1A protein, which also has two CXXC motifs in CR3. However, the Ad E1A transforming activity appears to be independent of the presence of such domains. In fact, this viral protein exists in vivo as two different forms of 289 and 243 amino acids. The shorter Ad E1A form (Ad E1A243), where both CXXC motifs are deleted by internal splicing, retains its in vitro transforming activity. We have investigated if the HPV16 E7 CR3 can be functionally replaced by the Ad E1A243 CR3, which lacks both CXXC motifs. A chimeric protein (E7/E1A243) containing the CR1 and CR2 of HPV16 E7 fused to the CR3 of Ad E1A 243 was constructed. The E7/E1A243 while not able to homodimerize in the S. cerevisiae two-hybrid system retains several of the properties of the parental proteins, HPV16 E7 and Ad E1A. It associates with the 'pocket' proteins, induces growth in soft agar of NIH3T3 cells and immortalizes rat embryo fibroblasts. These data suggest that the CXXC motifs in CR3 of E7 do not play a direct role in the transforming properties of this viral protein but probably are important for maintaining the correct protein configuration.
- Published
- 1998
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