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1. The Hippo effector YAP1 biochemically and functionally interacts with the nuclear factor-kappa B/RELA transcription factor

   Cinar, B: Al-Mathkour ; Dwead, A ; Boston, A ; Alp, E. ( May 2021 , The FASEB journal)

   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. 

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2. Regulation of the Hippo-YAP Signaling by Cytokines in Prostate Cancer Cell Lines

   Seymour, Demaiya ; Boston, Ava ; Cinar, Bekir ( April 2020 , Presented at Virtual Research Day in Spelman College; April 16-17, 2020; Atlanta, Georgia)

   The transcriptional co-activator YAP1 (yes-associated protein 1), a crucial effector of the Hippo pathway in mammals, regulates cell growth, cell motility, cell migration, and carcinogenesis. The STK4/Hippo kinase phosphorylates Ser127 and inactivate YAP1 activity in mammalian cells. Cytokines such as receptor activator of nuclear factor Kappa B (RANKL) regulate the immune system and bone remodeling. Similarly, stroma-cell derived factor 1 alpha (SDF1α) produced by the bone marrow stromal cell, is directly linked to cell migration and metastasis. We hypothesize that RANKL/SDF1α attenuates phospho-Ser127 and enhances YAP nuclear localization. We conducted immunological assays to evaluate the effects of SDF1α or RANKL on YAP1 in the LNCaP prostate cancer cell line. We showed that SDF1α and RANKL modulate phospho-Ser127 and total YAP1 protein in a time-dependent manner, as demonstrated by western blotting. We also showed that SDF1α exposure promoted YAP1 nuclear localization, as revealed by immunofluorescence imaging with confocal microscopy. These findings suggest that cytokines positively regulate YAP1 activity, possibly by counteracting with the STK4/Hippo signaling. The results of this study imply that cytokines secreted by the tumor cell environment promote an invasive cancer cell phenotype by modulating the Hippo-YAP1 pathway. 

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3. The Hippo pathway effector YAP/TEAD regulates EPHA3 expression and function

   Al-Mathkour, M ; Dwead, A ; Alp, E ; Boston, A ; Owens, J ; Cinar, B. ( May 2021 , The FASEB journal)

   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. 

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4. Polycomb group protein SCML2 interacts with the Hippo pathway effector YAP1

   https://doi.org/10.1091/mbc.E21-11-0545  

   Boston, Ava M. ; Mathkour, Mathkour M. ; Dwead, Abdulrahman M. ; Zou, Jin ; Wang, Guangdi ; Cinar, Bekir ( December 2021 , Molecular biology of the cell)

   Sex comb on midleg-like-2 (SCML2), a conserved polycomb group protein, functions as a transcriptional repressor. SCML2 binds monomethylated lysine residues on histones and regulates homeotic gene expression during development in mammals and the fly. Using proteomic approaches, we have identified SCML2 as a binding partner of the YAP1 protein complexes isolated from nuclei of prostate cancer cell lines. Both SCML2 and YAP1 are known to regulate basic cellular biology, including stem cell maintenance and carcinogenesis. Our western blot analysis showed that, unlike androgen receptor (AR)-negative cancerous and non-cancerous prostate epithelium, AR-positive cell lines express the high levels of SCML2, suggesting a possible link between androgen hormonal signaling and SCML2. In addition, our immunofluorescence imaging revealed that androgen hormone signaling promoted the subcellular localization of SCML2 and YAP1 proteins compared with mock control. Enzalutamide, a potent pharmacological inhibitor of AR, significantly prevented the subcellular distribution ofYAP1 and SCML2. Consistent with this observation, our proximity ligation assay demonstrated that androgen also regulated the physical interaction between SCML2 and YAP1proteins that occurred primarily in cell nuclei. Enzalutamide also prevented protein-protein interaction between YAP and SCML2. Besides, our GST-pulldown assay revealed that SCML2 and proteins physically interact with each other in the test tube. Furthermore, our promoter-reporter assay showed that transfection of two different SCML2 siRNA enhanced the activation of the YAP-responsive promoter-reporter gene four-fold compared to mock siRNA control. These observations suggest that the interaction between SCML2 and YAP1 is biologically functional and crucial in human physiology and disease. 

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5. The Hippo effector YAP1/TEAD1 regulates EPHA3 expression to control cell contact and motility

   https://doi.org/10.1038/s41598-022-07790-4  

   Al-Mathkour, Marwah M. ; Dwead, Abdulrahman M. ; Alp, Esma ; Boston, Ava M. ; Cinar, Bekir ( December 2022 , Scientific Reports)

   Abstract The EPHA3 protein tyrosine kinase, a member of the ephrin receptor family, regulates cell fate, cell motility, and cell–cell interaction. These cellular events are critical for tissue development, immunological responses, and the processes of tumorigenesis. Earlier studies revealed that signaling via the STK4 -encoded MST1 serine-threonine protein kinase, a core component of the Hippo pathway, attenuated EPHA3 expression. Here, we investigated the mechanism by which MST1 regulates EPHA3. Our findings have revealed that the transcriptional regulators YAP1 and TEAD1 are crucial activators of EPHA3 transcription. Silencing YAP1 and TEAD1 suppressed the EPHA3 protein and mRNA levels. In addition, we identified putative TEAD enhancers in the distal EPHA3 promoter, where YAP1 and TEAD1 bind and promote EPHA3 expression. Furthermore, EPHA3 knockout by CRISPR/Cas9 technology reduced cell–cell interaction and cell motility. These findings demonstrate that EPHA3 is transcriptionally regulated by YAP1/TEAD1 of the Hippo pathway, suggesting that it is sensitive to cell contact-dependent interactions. 

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