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Author Notes:

Bekir Cinar, Email: bcinar@cau.edu

B.C. conceptualized the idea, provided resources, and acquired funding. B.C. and M.M.A. designed and executed the experiments, curated, analyzed, validated the data, prepared Figs. 1, ​,2,2, ​,3,3, ​,4,4, ​,5,5, ​,6,6, ​,7,7, including Tables ​Tables1,1, ​,2,2, ​,3,3, ​,44 and Figs. S1–S11, wrote the main manuscript text. B.C., M.M.A., A.M.D., E.A., and A.M.B. established methodology. All authors reviewed the manuscript.

The author wants to thank Ms. Tuba Cinar for volunteering to edit the manuscript.

The authors declare no competing interests.

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Research Funding:

This work was supported in part by National Science Foundation–Division of Molecular and Cellular Biosciences Grant #1832022 (BC) and by NIMHD, National Institutes of Health #2U54MD007590. In addition, the NIH/NIGMS/RISE Program Grant #5R25GM060414 supported AMB, and a graduate scholarship supports MMA from Saudi Arabian Cultural Mission

Keywords:

  • Transcriptional regulatory elements
  • Cell signalling
  • Collective cell migration
  • Cancer

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

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Journal Title:

Scientific Reports

Volume:

Volume 12

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Type of Work:

Article | Final Publisher PDF

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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© The Author(s) 2022

This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/rdf).
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