Rotinen Díaz, Mirja Sofia
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Rotinen Díaz
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Mirja Sofia
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Ciencias de la Salud
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IMAB. Research Institute for Multidisciplinary Applied Biology
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Publication Open Access Transcriptional regulation of type 11 17β-hydroxysteroid dehydrogenase expression in prostate cancer cells(Elsevier, 2011) Rotinen Díaz, Mirja Sofia; Villar Bécares, Joaquín; Celay Leoz, Ion; Serrano Mendioroz, Irantzu; Notario, Vicente; Encío Martínez, Ignacio; Ciencias de la Salud; Osasun Zientziak; Gobierno de Navarra / Nafarroako GobernuaType 11 Hydroxysteroid (17-beta) dehydrogenase (HSD17B11) catalyzes the conversion of 5α-androstan-3α,17β-diol into androsterone suggesting that it may play an important role in androgen metabolism. We previously described that overexpression of C/EBPα or C/EBPβ induced HSD17B11 expression in HepG2 cells but this process was not mediated by the CCAAT boxes located within its proximal promoter region. Here, we study HSD17B11 transcriptional regulation in prostate cancer (PC) cells. Transfection experiments showed that the region −107/+18 is sufficient for promoter activity in PC cells. Mutagenesis analysis indicated that Sp1 and C/EBP binding sites found in this region are essential for promoter activity. Additional experiments demonstrated that ectopic expression of Sp1 and C/EBPα upregulated HSD17B11 expression only in PC cell lines. Through DAPA and ChIP assays, specific recruitment of Sp1 and C/EBPα to the HSD17B11 promoter was detected. These results show that HSD17B11 transcription in PC cells is regulated by Sp1 and C/EBPα.Publication Open Access Emerin deregulation links nuclear shape instability to metastatic potential(American Association for Cancer Research, 2018-11-01) Reis-Sobreiro, Mariana; Chen, Jie-Fu; Novitskaya, Tatiana; You, Sungyong; Morley, Samantha; Steadman, Kenneth; Gill, Navjot Kaur; Eskaros, Adel; Rotinen Díaz, Mirja Sofia; Chu, Chia-Yi; Chung, Leland W. K; Tanaka, Hisashi; Yang, Wei; Knudsen, Beatrice S.; Tseng, Hsian-Rong; Rowat, Amy C.; Posadas, Edwin M.; Zijlstra, Andries; Di Vizio, Dolores; Freeman, Michael R.; Ciencias de la Salud; Osasun ZientziakAbnormalities in nuclear shape are a well-known feature of cancer, but their contribution to malignant progression remains poorly understood. Here, we show that depletion of the cytoskeletal regulator, Diaphanous-related formin 3 (DIAPH3), or the nuclear membrane-associated proteins, lamin A/C, in prostate and breast cancer cells, induces nuclear shape instability, with a corresponding gain in malignant properties, including secretion of extracellular vesicles that contain genomic material. This transformation is characterized by a reduction and/or mislocalization of the inner nuclear membrane protein, emerin. Consistent with this, depletion of emerin evokes nuclear shape instability and promotes metastasis. By visualizing emerin localization, evidence for nuclear shape instability was observed in cultured tumor cells, in experimental models of prostate cancer, in human prostate cancer tissues, and in circulating tumor cells from patients with metastatic disease. Quantitation of emerin mislocalization discriminated cancer from benign tissue and correlated with disease progression in a prostate cancer cohort. Taken together, these results identify emerin as a mediator of nuclear shape stability in cancer and show that destabilization of emerin can promote metastasis. Significance: This study identifies a novel mechanism integrating the control of nuclear structure with the metastatic phenotype, and our inclusion of two types of human specimens (cancer tissues and circulating tumor cells) demonstrates direct relevance to human cancer.Publication Open Access Changes in gene expression profiling of apoptotic genes in neuroblastoma cell lines upon retinoic acid treatment(Public Library of Science, 2013) Celay Leoz, Ion; Blanco Luquin, Idoia; Lázcoz Ripoll, Paula; Rotinen Díaz, Mirja Sofia; Castresana, Javier S.; Encío Martínez, Ignacio; Ciencias de la Salud; Osasun Zientziak; Gobierno de Navarra / Nafarroako GobernuaTo determine the effect of retinoic acid (RA) in neuroblastoma we treated RA sensitive neuroblastoma cell lines with 9-cis RA or ATRA for 9 days, or for 5 days followed by absence of RA for another 4 days. Both isomers induced apoptosis and reduced cell density as a result of cell differentiation and/or apoptosis. Flow cytometry revealed that 9-cis RA induced apoptosis more effectively than ATRA. The expression profile of apoptosis and survival pathways was cell line specific and depended on the isomer used.Publication Open Access Large oncosomes in human prostate cancer tissues and in the circulation of mice with metastatic disease(Elsevier, 2012-11-01) Di Vizio, Dolores; Morello, Matteo; Dudley, Andrew C.; Schow, Peter W.; Adam, Rosalyn M.; Morley, Samantha; Mulholland, David; Rotinen Díaz, Mirja Sofia; Hager, Martin H.; Insabato, Luigi; Moses, Marsha A.; Demichelis, Francesca; Lisanti, Michael P.; Wu, Hong; Klagsbrun, Michael; Bhowmick, Neil A.; Rubin, Mark A.; D'Souza-Schorey, Crislyn; Freeman, Michael R.; Ciencias de la Salud; Osasun ZientziakOncosomes are tumor-derived microvesicles that transmit signaling complexes between cell and tissue compartments. Herein, we show that amoeboid tumor cells export large (1- to 10-μm diameter) vesicles, derived from bulky cellular protrusions, that contain metalloproteinases, RNA, caveolin-1, and the GTPase ADP-ribosylation factor 6, and are biologically active toward tumor cells, endothelial cells, and fibroblasts. We describe methods by which large oncosomes can be selectively sorted by flow cytometry and analyzed independently of vesicles <1 μm. Structures resembling large oncosomes were identified in the circulation of different mouse models of prostate cancer, and their abundance correlated with tumor progression. Similar large vesicles were also identified in human tumor tissues, but they were not detected in the benign compartment. They were more abundant in metastases. Our results suggest that tumor microvesicles substantially larger than exosome-sized particles can be visualized and quantified in tissues and in the circulation, and isolated and characterized using clinically adaptable methods. These findings also suggest a mechanism by which migrating tumor cells condition the tumor microenvironment and distant sites, thereby potentiating advanced disease.