YAP and TAZ are transcriptional co-activators of AP-1 proteins and STAT3 during breast cellular transformation

He, Lizhi; Pratt, Henry E.; Gao, Mingshi; Wei, Fengxiang; Weng, Zhiping; Struhl, Kevin

doi:10.7554/elife.67312

Cited by 70 publications

(62 citation statements)

References 58 publications

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“…More recently, a few more studies further identified novel AP-1 co-activators. For instance, the dimeric RACO-1 protein was identified as a c-Jun coactivator, and both YAP (Yes-associated protein) and TAZ (Transcriptional activator with PDZ domain) proteins as b-Jun co-activators required for transcriptional activation by AP-1 [87,88]. As both YAP and TAZ were recently found to be key mediators of the wound healing and tissue regeneration responses to tissue damage [89], it would prove particularly interesting to determine whether both these proteins are expressed in the hTEC and if their expression is affected by wound healing in this biological model.…”

Section: Discussionmentioning

confidence: 99%

Contribution of the Transcription Factors Sp1/Sp3 and AP-1 to Clusterin Gene Expression during Corneal Wound Healing of Tissue-Engineered Human Corneas

Gross

Le‐Bel

Desjardins

et al. 2021

IJMS

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In order to reduce the need for donor corneas, understanding of corneal wound healing and development of an entirely tissue-engineered human cornea (hTECs) is of prime importance. In this study, we exploited the hTEC to determine how deep wound healing affects the transcriptional pattern of corneal epithelial cells through microarray analyses. We demonstrated that the gene encoding clusterin (CLU) has its expression dramatically repressed during closure of hTEC wounds. Western blot analyses confirmed a strong reduction in the expression of the clusterin isoforms after corneal damage and suggest that repression of CLU gene expression might be a prerequisite to hTEC wound closure. Transfection with segments from the human CLU gene promoter revealed the presence of three regulatory regions: a basal promoter and two more distal negative regulatory regions. The basal promoter bears DNA binding sites for very potent transcription factors (TFs): Activator Protein-1 (AP-1) and Specificity protein-1 and 3 (Sp1/Sp3). By exploiting electrophoretic mobility shift assays (EMSA), we demonstrated that AP-1 and Sp1/Sp3 have their DNA binding site overlapping with one another in the basal promoter of the CLU gene in hCECs. Interestingly, expression of both these TFs is reduced (at the protein level) during hTEC wound healing, thereby contributing to the extinction of CLU gene expression during that process. The results of this study contribute to a better understanding of the molecular mechanisms accounting for the repression of CLU gene expression during corneal wound healing.

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Section: Discussionmentioning

confidence: 99%

Contribution of the Transcription Factors Sp1/Sp3 and AP-1 to Clusterin Gene Expression during Corneal Wound Healing of Tissue-Engineered Human Corneas

Gross

Le‐Bel

Desjardins

et al. 2021

IJMS

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“…Similar to the intact Yki, this fragment retains the ability to be phosphorylated by Wts, suggesting that this is independent of WW binding to Wts and regulation of Yki phosphorylation [ 79 ]. The WW domain in YAP is, however, essential for its activity in order to drive proliferation in vitro and in vivo [ 79 , 80 ] and can facilitate association between YAP and a variety of transcription factors, such as ERBB4 [ 81 , 82 ], JUNB [ 83 ] and RUNX2 [ 84 ], suggesting a TEAD-independent role for YAP as a transcriptional co-activator. A total of eight isoforms of YAP have been reported [ 85 ], with two major isoform types: YAP1 and YAP2, which contain one and two WW domains respectively [ 81 ].…”

Section: Hippo Pathway Dysregulation In Cancermentioning

confidence: 99%

“…These pro-proliferative transcriptional programs may be driven in part by YAP/TAZ–TEAD association with the cell cycle transcription factor complex, AP-1. In a variety of cancer cell lines, YAP, TAZ and TEAD are found to colocalise with AP-1 to regulatory elements of the genome and are necessary for AP-1-mediated expression of cell cycle transcriptional programs, driving cancer cell proliferation and tumorigenesis in in vivo xenograft models [ 83 , 125 , 126 ]. Hyperactive YAP/TAZ also provides cells with a metabolic competitive advantage under nutrient-limiting conditions, in part by up-regulating glucose and high-affinity amino acid transporters [ 127–129 ].…”

Section: Hippo Pathway Dysregulation In Cancermentioning

confidence: 99%

“…This discovery is of particular relevance currently given the recent focus on leveraging immunotherapy to manage a wide variety of cancer types [ 262 , 263 ], with a combinatorial approach that simultaneously targets YAP/TAZ activity potentially overcoming the resistance associated with immunotherapy [ 264 , 265 ]. Noteworthily, enforced expression of constitutively activated YAP/TAZ in a range of tissue culture and cancer cells regularly induces expression of inflammatory cytokines [ 83 , 266–270 ], which directly highlights that the Hippo pathway is likely a cellular nexus that links epithelial, fibroblasts and endothelial inflammatory responses and proliferation during cancer onset and development [ 13 , 261 , 266 ].…”

Section: Therapeutics and Hippo Signallingmentioning

confidence: 99%

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The Hippo pathway in cancer: YAP/TAZ and TEAD as therapeutic targets in cancer

2022

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Tumorigenesis is a highly complex process, involving many interrelated and cross-acting signalling pathways. One such pathway that has garnered much attention in the field of cancer research over the last decade is the Hippo signalling pathway. Consisting of two antagonistic modules, the pathway plays an integral role in both tumour suppressive and oncogenic processes, generally via regulation of a diverse set of genes involved in a range of biological functions. This review discusses the history of the pathway within the context of cancer and explores some of the most recent discoveries as to how this critical transducer of cellular signalling can influence cancer progression. A special focus is on the various recent efforts to therapeutically target the key effectors of the pathway in both preclinical and clinical settings.

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“…In addition, cellular transformation depends on transcriptional co-activators that are key components of signal transduction pathways and are recruited to target sites by DNA-binding proteins. Such co-activators include the YAP and TAZ paralogues, the ultimate targets of the Hippo signaling pathway [ 6 ], and the calcium-binding cytokines S100A8 and S100A9 [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

MafB, WDR77, and ß-catenin interact with each other and have similar genome association profiles

Gao

Pratt

et al. 2022

PLoS ONE

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MafB (a bZIP transcription factor), ß-catenin (the ultimate target of the Wnt signal transduction pathway that acts as a transcriptional co-activator of LEF/TCF proteins), and WDR77 (a transcriptional co-activator of multiple hormone receptors) are important for breast cellular transformation. Unexpectedly, these proteins interact directly with each other, and they have similar genomic binding profiles. Furthermore, while some of these common target sites coincide with those bound by LEF/TCF, the majority are located just downstream of transcription initiation sites at a position near paused RNA polymerase (Pol II) and the +1 nucleosome. Occupancy levels of these factors at these promoter-proximal sites are strongly correlated with the level of paused Pol II and transcriptional activity.

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YAP and TAZ are transcriptional co-activators of AP-1 proteins and STAT3 during breast cellular transformation

Cited by 70 publications

References 58 publications

Contribution of the Transcription Factors Sp1/Sp3 and AP-1 to Clusterin Gene Expression during Corneal Wound Healing of Tissue-Engineered Human Corneas

Contribution of the Transcription Factors Sp1/Sp3 and AP-1 to Clusterin Gene Expression during Corneal Wound Healing of Tissue-Engineered Human Corneas

The Hippo pathway in cancer: YAP/TAZ and TEAD as therapeutic targets in cancer

MafB, WDR77, and ß-catenin interact with each other and have similar genome association profiles

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