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null (Ed.)The transcriptional co-activator YAP1 (yes-associated protein 1) is a critical nuclear effector of the Hippo pathway. The Hippo pathway regulates cell growth, cell motility, cell migration, and carcinogenesis, but poorly defined mechanism. We investigated biochemical and functional interactions between YAP1 and the nuclear factor (NF)-kappa B/RELA subunit in prostate cancer cell models. We demonstrated that endogenous YAP1 and RELA form protein complexes in the cell, as revealed by co-immunoprecipitation and western blotting. Compared with control, we found that combined treatment of cells with androgen and SDF-1a (stromal cell-derived factor-1 alpha) or RANKL (receptor activator of NF-kappa B ligand) enhanced the protein-protein interaction between YAP1 and RELA, as showed by proximity ligation assay. Our confocal microscopy experiment further showed that combined SDF-1aand androgen treatment promoted the YAP1 and RELA colocalization instead of single-agent treatment. Moreover, our promoter-reporter and RNAi experiments showed that knockdown of YAP1 or TEAD, a key mediator of the YAP transcription, significantly reduced the NF-Kappa B promoter-reporter gene activity. Also, disruption of YAP1 activity attenuated the TEAD-RELA interaction. Furthermore, the controlled expression of MST1/STK4, a potent inhibitor of YAP1, attenuated the NF-Kappa B-promoter reporter activity. Additionally, our unbiased bioinformatics analysis of the exiting ChIP-seq (chromatin immunoprecipitation-sequencing) data sets identified several genes that are likely co-regulated by the YAP1/TEAD and NF-Kappa B/RELA transcription factors. These findings suggest that cooperative androgen and cytokine signaling regulates Hippo/YAP and NF-Kappa B interaction. Thus, the YAP1/TEAD and NF-Kappa B/RELA interaction may have critical roles in cellular biology and human diseases.more » « less
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null (Ed.)Cell-cell interaction is critical for tissue development and repair, immunological responses, and cancer cell metastasis. The tyrosine kinase EPHA3 (erythropoietin‑producing hepatocellular carcinoma cell surface type-A receptor 3) regulates cell-cell interaction, cell differentiation, and cancer cell survival. Previously, our published study indicated that the theSTK4-encoded MST1 signaling, a core kinase component of the Hippo pathway, suppressedEPHA3 expression in the prostate cancer cell models. However, the mechanism is unknown. Here, we have demonstrated that the YAP1 and TEAD1 proteins, critical nuclear effectors of the Hippo pathway, mediate EPHA3 expression. First, we showed that AR-positive cell lines express the highest levels of EPHA3 and its ligand, ephrin-A5, transcripts compared with other EPH family members. Second, we demonstrated the induction of MST1/STK4attenuated the EPHA3 protein and transcripts, consistent with our initial observation. Next, we demonstrated that the knockdown of YAP1 by siRNA suppressed EPHA3 protein and mRNA expression. Similarly, the silencing of the TEAD1-4 proteins, critical mediators of YAP1-dependent gene transcription, revealed that the TEAD1 is a crucial inducer of EPHA3expression. Moreover, bioinformatics tools allowed the identification of three putative TEAD binding sites (p<0.001) in the promoter region of the EPHA3 gene. Furthermore, CRISPR/Cas9-aided EPHA3 knockout significantly (p<0.01), decreased cell growth in monolayer and sphere formation in 3D cultures, and caused androgen-independent cells to become sensitive to enzalutamide, a potent direct inhibitor of AR activity. These observations suggest that the YAP/TEAD1 transcriptionally regulates EPHA3 and its cellular biology.more » « less