Systems analysis identifies melanoma-enriched pro-oncogenic networks controlled by the RNA binding protein CELF1.
Metehan CifdalozLisa OsterlohOsvaldo GrañaErica Riveiro-FalkenbachPilar Ximénez-EmbúnJavier MuñozCristina TejedoTonantzin G CalvoPanagiotis KarrasDavid OlmedaBelén MiñanaGonzalo Gómez-LópezEstela CañonEduardo EyrasHaihong GuoFerdinand KappesPablo L Ortiz-RomeroJose L Rodríguez-PeraltoDiego MegíasJuan ValcárcelMaría S SoengasPublished in: Nature communications (2017)
Melanomas are well-known for their altered mRNA expression profiles. Yet, the specific contribution of mRNA binding proteins (mRBPs) to melanoma development remains unclear. Here we identify a cluster of melanoma-enriched genes under the control of CUGBP Elav-like family member 1 (CELF1). CELF1 was discovered with a distinct prognostic value in melanoma after mining the genomic landscape of the 692 known mRBPs across different cancer types. Genome-wide transcriptomic, proteomic, and RNA-immunoprecipitation studies, together with loss-of-function analyses in cell lines, and histopathological evaluation in clinical biopsies, revealed an intricate repertoire of CELF1-RNA interactors with minimal overlap with other malignancies. This systems approach uncovered the oncogene DEK as an unexpected target and downstream effector of CELF1. Importantly, CELF1 and DEK were found to represent early-induced melanoma genes and adverse indicators of overall patient survival. These results underscore novel roles of CELF1 in melanoma, illustrating tumor type-restricted functions of RBPs in cancer.