Browsing by Author "Sagredo, Alfredo"
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Item ADAR1 Transcriptome editing promotes breast cancer progression through the regulation of cell cycle and DNA damage response(Elsevier B.V., 2020) Sagredo, Eduardo; Sagredo, Alfredo; Blanco, Alejandro; Rojas, Pamela; Rivas, Solange; Assar, Rodrigo; Pérez, Paola; Marcelain, Katherine; Armisén, RicardoRNA editing has emerged as a novel mechanism in cancer progression. The double stranded RNA-specific adenosine deaminase (ADAR) modifies the expression of an important proportion of genes involved in cell cycle control, DNA damage response (DDR) and transcriptional processing, suggesting an important role of ADAR in transcriptome regulation. Despite the phenotypic implications of ADAR deregulation in several cancer models, the role of ADAR on DDR and proliferation in breast cancer has not been fully addressed. Here, we show that ADAR expression correlates significantly with clinical outcomes and DDR, cell cycle and proliferation mRNAs of previously reported edited transcripts in breast cancer patients. ADAR's knock-down in a breast cancer cell line produces stability changes of mRNAs involved in DDR and DNA replication. Breast cancer cells with reduced levels of ADAR show a decreased viability and an increase in apoptosis, displaying a significant decrease of their DDR activation, compared to control cells. These results suggest that ADAR plays an important role in breast cancer progression through the regulation of mRNA stability and expression of those genes involved in proliferation and DDR impacting the viability of breast cancer cells.Item ALS-linked protein disulfide isomerase variants cause motor dysfunction(European Molecular Biology Organization by IRL Press, 2016) Woehlbier, Ute; Colombo, Alicia; Saaranen, Mirva; Pérez, Viviana; Ojeda, Jorge; Bustos, Fernando; Andreu, Catherine; Torres, mauricio; Valenzuela, Vicente; Medinas, Danilo; Rozas, Pablo; Vidal, René; López-González, Rodrigo; Salameh, Johnny; Fernández-Collemann, Sara; Muñoz, Natalia; Matus, Soledad; Armisén, Ricardo; Sagredo, Alfredo; Palma, Karina; Irrazabal, Thergiory; Almeida, Sandra; González-Pérez, Paloma; Campero, MarioDisturbance of endoplasmic reticulum (ER) proteostasis is a common feature of amyotrophic lateral sclerosis (ALS). Protein disulfide isomerases (PDIs) areERfoldases identified as possibleALSbiomarkers, as well as neuroprotective factors. However, no functional studies have addressed their impact on the disease process. Here, we functionally characterized fourALS-linked mutations recently identified in two majorPDIgenes,PDIA1 andPDIA3/ERp57. Phenotypic screening in zebrafish revealed that the expression of thesePDIvariants induce motor defects associated with a disruption of motoneuron connectivity. Similarly, the expression of mutantPDIs impaired dendritic outgrowth in motoneuron cell culture models. Cellular and biochemical studies identified distinct molecular defects underlying the pathogenicity of thesePDImutants. Finally, targetingERp57 in the nervous system led to severe motor dysfunction in mice associated with a loss of neuromuscular synapses. This study identifiesERproteostasis imbalance as a risk factor forALS, driving initial stages of the disease.Item Ski Is Required for Tri-Methylation of H3K9 in Major Satellite and for Repression of Pericentromeric Genes: Mmp3, Mmp10 and Mmp13, in Mouse Fibroblasts(Elsevier Ltd., 2020) Capelli, Claudio; Sepúlveda, Hugo; Rivas, Solange; Víctor, Paola; Urzúa, Ulises; Donoso, Gerardo; Sagredo, Eduardo; Carrero, David; Casanova-Ortiz, Emmanuel; Sagredo, Alfredo; González, Marisel; Manterola, Marcia; Nardocci, Gino; Armisén, Ricardo; Montecino, Martín; Marcelain, KatherineSeveral mechanisms directing a rapid transcriptional reactivation of genes immediately after mitosis have been described. However, little is known about the maintenance of repressive signals during mitosis. In this work, we address the role of Ski in the repression of gene expression during M/G1 transition in mouse embryonic fibroblasts (MEFs). We found that Ski localises as a distinct pair of dots at the pericentromeric region of mitotic chromosomes, and the absence of the protein is related to high acetylation and low tri-methylation of H3K9 in pericentromeric major satellite. Moreover, differential expression assays in early G1 cells showed that the presence of Ski is significantly associated with repression of genes localised nearby to pericentromeric DNA. In mitotic cells, chromatin immunoprecipitation assays confirmed the association of Ski to major satellite and the promoters of the most repressed genes: Mmp3, Mmp10 and Mmp13. These genes are at pericentromeric region of chromosome 9. In these promoters, the presence of Ski resulted in increased H3K9 tri-methylation levels. This Ski-dependent regulation is also observed during interphase. Consequently, Mmp activity is augmented in Ski −/− MEFs. Altogether, these data indicate that association of Ski with the pericentromeric region of chromosomes during mitosis is required to maintain the silencing bookmarks of underlying chromatin.