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ERK5 Is a Major Determinant of Chemical Sarcomagenesis: Implications in Human Pathology.

Elena Arconada-LuqueJaime Jiménez-SuarezRaquel Pascual-SerraSyong Hyun Nam-ChaTeresa MolineFrancisco J CimasGermán FliqueteMarta Ortega-MuelasOlga RocheDiego M Fernandez-ArocaRaúl Muñoz VelascoNatalia García-FloresCristina Garnés-GarcíaAdrián Sánchez-FdezSofía Matilla-AlmazánVíctor Javier Sánchez-Arévalo LoboJavier Hernández-LosaBorja BelandiaAtanasio PandiellaAzucena Esparís-OgandoSantiago Ramón Y CajalLuis Del PesoRicardo Sanchez-PrietoMaría José Ruiz-Hidalgo
Published in: Cancers (2022)
Sarcomas are a heterogeneous group of tumors in which the role of ERK5 is poorly studied. To clarify the role of this MAPK in sarcomatous pathology, we used a murine 3-methyl-cholanthrene (3MC)-induced sarcoma model. Our data show that 3MC induces pleomorphic sarcomas with muscle differentiation, showing an increased expression of ERK5. Indeed, this upregulation was also observed in human sarcomas of muscular origin, such as leiomyosarcoma or rhabdomyosarcoma. Moreover, in cell lines derived from these 3MC-induced tumors, abrogation of Mapk7 expression by using specific shRNAs decreased in vitro growth and colony-forming capacity and led to a marked loss of tumor growth in vivo. In fact, transcriptomic profiling in ERK5 abrogated cell lines by RNAseq showed a deregulated gene expression pattern for key biological processes such as angiogenesis, migration, motility, etc., correlating with a better prognostic in human pathology. Finally, among the various differentially expressed genes, Klf2 is a key mediator of the biological effects of ERK5 as indicated by its specific interference, demonstrating that the ERK5-KLF2 axis is an important determinant of sarcoma biology that should be further studied in human pathology.
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