KSHV latent protein LANA2 inhibits sumo2 modification of p53
Laura, M. V.; De La Cruz-Herrera, C. F.; Ferreirós, A.; Baz-Martínez, M.; Lang, V.; Vidal, A.; Muñoz-Fontela, C.; Rodríguez, M. S.; Collado, M.; Rivas, C.Marcos-Villar, Laura; de la Cruz-Herrera, Carlos F; Ferreirós López, Alba; Baz Martínez, Maite; Lang, Valerie; Vidal Figueroa, Anxo; Muñoz-Fontenla, César; Rodríguez, Manuel S.; Collado Rodríguez, Manuel; Rivas ?, Carmen
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Data de publicación
2015Título da revista
CELL CYCLE
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Artigo
DeCS
Proteína p53 Supresora de Tumor | Proteínas Nucleares | Antígenos Virales | Línea Celular Tumoral | Células HEK293 | Herpesvirus Humano 8 | Proteínas NuclearesMeSH
Antigens, Viral | Cell Line, Tumor | HEK293 Cells | Herpesvirus 8, Human | Humans | Nuclear Proteins | Recombinant Fusion Proteins | Small Ubiquitin-Related Modifier Proteins | Sumoylation | Tumor Suppressor Protein p53 | Ubiquitin-Conjugating Enzymes | Viral ProteinsResumo
Tumor suppressor p53 plays a crucial antiviral role and targeting of p53 by viral proteins is a common mechanism involved in virus oncogenesis. The activity of p53 is tightly regulated at the post-translational levels through a myriad of modifications. Among them, modification of p53 by SUMO has been associated with the onset of cellular senescence. Kaposi s sarcoma-associated herpesvirus (KSHV) expresses several proteins targeting p53, including the latent protein LANA2 that regulates polyubiquitylation and phosphorylation of p53. Here we show that LANA2 also inhibits the modification of p53 by SUMO2. Furthermore, we show that the reduction of p53-SUMO2 conjugation by LANA2, as well as the p53-LANA2 interaction, both require the SUMOylation of the viral protein and its interaction with SUMO or SUMOylated proteins in a non-covalent manner. Finally, we show that the control of p53-SUMO2 conjugation by LANA2 correlates with its ability to inhibit SUMO2- and type I interferon-induced senescence. These results highlight the importance of p53 SUMOylation in the control of virus infection and suggest that viral oncoproteins could contribute to viral infection and cell transformation by abrogating p53 SUMOylation.