Structural and functional analysis of the YAP-binding domain of human TEAD2

Tian, Wei; Yu, Jianzhong; Tomchick, Diana R.; Pan, Duojia; Luo, Xuelian

doi:10.1073/pnas.1000293107

Cited by 140 publications

(189 citation statements)

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“…Our study highlights the potential for YAP as a therapeutic target in ovarian cancer, particularly as reducing YAP levels can partially revert tumorigenic properties of ovarian cancer cell lines such as anchorageindependent growth, resistance to chemotherapeutic drugs, and cell migration and invasion. The TEAD1-4 transcription factors are major effectors of YAP, and the structure of YAP in complex with different TEAD family members was recently reported Li et al, 2010;Tian et al, 2010). Small molecules that inhibit the YAP/ TEAD interaction might thus prove beneficial for treatment of cancers with enhanced YAP activity, such as ovarian clear cell cancer.…”

Section: Discussionmentioning

confidence: 99%

The Hippo pathway transcriptional co-activator, YAP, is an ovarian cancer oncogene

et al. 2011

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The Salvador-Warts-Hippo (SWH) pathway was first discovered in Drosophila melanogaster as a potent inhibitor of tissue growth. The SWH pathway is highly conserved between D. melanogaster and mammals, both in function and in the mechanism of signal transduction. The mammalian SWH pathway limits tissue growth by inhibiting the nuclear access and expression of the transcriptional co-activator, Yes-associated protein (YAP). Mutation and altered expression of SWH pathway proteins has been observed in several types of human cancer, but the contribution of these events to tumorigenesis has been unclear. Here we show that YAP can enhance the transformed phenotype of ovarian cancer cell lines and that YAP confers resistance to chemotherapeutic agents that are commonly used to treat ovarian cancer. We find that high nuclear YAP expression correlates with poor patient prognosis in a cohort of 268 invasive epithelial ovarian cancer samples. Segregation by histotype shows that the correlation between nuclear YAP and poor survival is predominantly associated with clear cell tumors, independent of stage. Collectively our findings suggest that YAP derepression contributes to the genesis of ovarian clear cell carcinoma and that the SWH pathway is an attractive therapeutic target.

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Section: Discussionmentioning

confidence: 99%

The Hippo pathway transcriptional co-activator, YAP, is an ovarian cancer oncogene

et al. 2011

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“…Disruption of YAP-TEAD interaction abolishes YAP-dependent gene transcription and largely diminishes YAP-induced cell proliferation, oncogenic transformation, and epithelial-to-mesenchymal transition (EMT) . The crystal structure of YAP-TEAD complexes reveals that the N-terminal domain of YAP wraps around the globular structure formed by the C-terminal domain of TEAD (Chen et al, 2010b;Tian et al, 2010). Particularly, a short peptide of YAP from residues 86 to 100 plays the most important role in YAP-TEAD interaction by fitting side chains into a deep pocket formed by TEAD.…”

Section: The Mammalian Hippo Pathwaymentioning

confidence: 99%

The Hippo pathway regulates stem cell proliferation, self-renewal, and differentiation

et al. 2012

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This pathway was first found to inhibit cell proliferation and promote apoptosis, therefore regulating cell number and organ size in both Drosophila and mammals. However, in several organs, disturbance of the pathway leads to specific expansion of the progenitor cell compartment and manipulation of the pathway in embryonic stem cells strongly affects their self-renewal and differentiation. In this review, we summarize current observations on roles of the Hippo pathway in different types of stem cells and discuss how these findings changed our view on the Hippo pathway in organ development and tumorigenesis.

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“…The major target transcription factors of YAP, TAZ and Yki are the four proteins of the TEA-domain-containing (TEAD) family (TEAD1-TEAD4), which correspond to a single homologue in Drosophila, Scalloped (Sd) (Goulev et al, 2008;Wu et al, 2008;Zhang, H. et al, 2009;Zhang et al, 2008;Zhao et al, 2008). Crystallographic data revealed that the N-terminal TEAD-binding domain of YAP wraps around a globular structure formed by the C-terminal domains of TEAD1, 2 and 4 Li et al, 2010;Tian et al, 2010). YAP also binds to other transcription regulators, such as Runt-related transcription factor (RUNX), the cytoplasmic domain of ErbB4 and p73, but none of these interactions has been shown so far to mediate the function of YAP in organ size control and tumorigenesis (Komuro et al, 2003;Omerovic et al, 2004;Strano et al, 2001;Yagi et al, 1999).…”

Section: Downstream Effectors Of the Hippo Pathwaymentioning

confidence: 99%