Literature DB >> 33903593

PAX8 and MECOM are interaction partners driving ovarian cancer.

Melusine Bleu1, Fanny Mermet-Meillon1, Verena Apfel1, Louise Barys1, Laura Holzer1, Marianne Bachmann Salvy1, Rui Lopes1, Inês Amorim Monteiro Barbosa1, Cecile Delmas2, Alexandra Hinniger2, Suzanne Chau2, Markus Kaufmann2, Simon Haenni2, Karolin Berneiser2,3, Maria Wahle2, Ivana Moravec4, Alexandra Vissières4, Tania Poetsch4, Erik Ahrné4, Nathalie Carte4, Johannes Voshol4, Elisabeth Bechter1, Jacques Hamon1, Marco Meyerhofer1, Dirk Erdmann1, Matteo Fischer1, Therese Stachyra1, Felix Freuler2, Sascha Gutmann2, César Fernández2, Tobias Schmelzle1, Ulrike Naumann2, Guglielmo Roma2, Kate Lawrenson5, Cristina Nieto-Oberhuber6, Amanda Cobos-Correa2, Stephane Ferretti1, Dirk Schübeler7,8, Giorgio Giacomo Galli9.   

Abstract

The transcription factor PAX8 is critical for the development of the thyroid and urogenital system. Comprehensive genomic screens furthermore indicate an additional oncogenic role for PAX8 in renal and ovarian cancers. While a plethora of PAX8-regulated genes in different contexts have been proposed, we still lack a mechanistic understanding of how PAX8 engages molecular complexes to drive disease-relevant oncogenic transcriptional programs. Here we show that protein isoforms originating from the MECOM locus form a complex with PAX8. These include MDS1-EVI1 (also called PRDM3) for which we map its interaction with PAX8 in vitro and in vivo. We show that PAX8 binds a large number of genomic sites and forms transcriptional hubs. At a subset of these, PAX8 together with PRDM3 regulates a specific gene expression module involved in adhesion and extracellular matrix. This gene module correlates with PAX8 and MECOM expression in large scale profiling of cell lines, patient-derived xenografts (PDXs) and clinical cases and stratifies gynecological cancer cases with worse prognosis. PRDM3 is amplified in ovarian cancers and we show that the MECOM locus and PAX8 sustain in vivo tumor growth, further supporting that the identified function of the MECOM locus underlies PAX8-driven oncogenic functions in ovarian cancer.

Entities:  

Year:  2021        PMID: 33903593     DOI: 10.1038/s41467-021-22708-w

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  40 in total

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Journal:  Cell       Date:  2017-07-27       Impact factor: 41.582

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Authors:  Emily K Adler; Rosario I Corona; Janet M Lee; Norma Rodriguez-Malave; Paulette Mhawech-Fauceglia; Heidi Sowter; Dennis J Hazelett; Kate Lawrenson; Simon A Gayther
Journal:  Oncotarget       Date:  2017-11-27
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  10 in total

Review 1.  PAX8 in the Junction between Development and Tumorigenesis.

Authors:  Reli Rachel Kakun; Zohar Melamed; Ruth Perets
Journal:  Int J Mol Sci       Date:  2022-07-03       Impact factor: 6.208

2.  chromMAGMA: regulatory element-centric interrogation of risk variants.

Authors:  Robbin Nameki; Anamay Shetty; Eileen Dareng; Jonathan Tyrer; Xianzhi Lin; Paul Pharoah; Rosario I Corona; Siddhartha Kar; Kate Lawrenson
Journal:  Life Sci Alliance       Date:  2022-07-01

3.  SOX17 and PAX8 constitute an actionable lineage-survival transcriptional complex in ovarian cancer.

Authors:  Lifeng Lin; Kaixuan Shi; Shaoqing Zhou; Mei-Chun Cai; Caiyan Zhang; Yunheng Sun; Jingyu Zang; Lin Cheng; Kaiyan Ye; Pengfei Ma; Peiye Shen; Meiying Zhang; Yan Cheng; Chunting Qi; Ying Li; Xia Yin; Yiyan Zheng; Li Tan; Guanglei Zhuang; Rongyu Zang
Journal:  Oncogene       Date:  2022-02-05       Impact factor: 8.756

4.  The transcription factor PAX8 promotes angiogenesis in ovarian cancer through interaction with SOX17.

Authors:  Daniele Chaves-Moreira; Marilyn A Mitchell; Cristina Arruza; Priyanka Rawat; Simone Sidoli; Robbin Nameki; Jessica Reddy; Rosario I Corona; Lena K Afeyan; Isaac A Klein; Sisi Ma; Boris Winterhoff; Gottfried E Konecny; Benjamin A Garcia; Donita C Brady; Kate Lawrenson; Patrice J Morin; Ronny Drapkin
Journal:  Sci Signal       Date:  2022-04-05       Impact factor: 9.517

5.  Curcumol Targeting PAX8 Inhibits Ovarian Cancer Cell Migration and Invasion and Increases Chemotherapy Sensitivity of Niraparib.

Authors:  Caihong Liu
Journal:  J Oncol       Date:  2022-05-02       Impact factor: 4.501

6.  Machine learning approach informs biology of cancer drug response.

Authors:  Eliot Y Zhu; Adam J Dupuy
Journal:  BMC Bioinformatics       Date:  2022-05-17       Impact factor: 3.307

7.  Integrated profiling of human pancreatic cancer organoids reveals chromatin accessibility features associated with drug sensitivity.

Authors:  Xiaohan Shi; Yunguang Li; Qiuyue Yuan; Shijie Tang; Shiwei Guo; Yehan Zhang; Juan He; Xiaoyu Zhang; Ming Han; Zhuang Liu; Yiqin Zhu; Suizhi Gao; Huan Wang; Xiongfei Xu; Kailian Zheng; Wei Jing; Luonan Chen; Yong Wang; Gang Jin; Dong Gao
Journal:  Nat Commun       Date:  2022-04-21       Impact factor: 17.694

8.  Integration of single-cell transcriptomes and chromatin landscapes reveals regulatory programs driving pharyngeal organ development.

Authors:  Margaret E Magaletta; Macrina Lobo; Eric M Kernfeld; Hananeh Aliee; Jack D Huey; Teagan J Parsons; Fabian J Theis; René Maehr
Journal:  Nat Commun       Date:  2022-01-24       Impact factor: 17.694

9.  EVI1 Promotes the Proliferation and Invasive Properties of Human Head and Neck Squamous Cell Carcinoma Cells.

Authors:  Alexander Michael Grandits; Sophie Bromberger; Gerwin Heller; Barbara Andrea Reinoehl; Erwin Tomasich; Klaudia Schossleitner; Anna Sophie Berghoff; Thorsten Fuereder; Rotraud Wieser
Journal:  Int J Mol Sci       Date:  2022-01-19       Impact factor: 5.923

10.  UCP1 modulates immune infiltration level and survival outcome in ovarian cancer patients.

Authors:  Jinfa Huang; Guilian Wang; Kedan Liao; Ning Xie; Kaixian Deng
Journal:  J Ovarian Res       Date:  2022-01-28       Impact factor: 4.234
  10 in total

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