The Hippo pathway transcription factors YAP and TAZ play HPV-type dependent roles in cervical cancer.

Human papillomaviruses (HPVs) cause most cervical cancers and an increasing number of anogenital and oral carcinomas, with most cases caused by HPV16 or HPV18. HPV hijacks host signalling pathways to promote carcinogenesis. Understanding these interactions could permit identification of much-needed therapeutics for HPV-driven malignancies. The Hippo signalling pathway is important in HPV+ cancers, with the downstream effector YAP playing a pro-oncogenic role. In contrast, the significance of its paralogue TAZ remains largely uncharacterised in these cancers. We demonstrate that TAZ is dysregulated in a HPV-type dependent manner by a distinct mechanism to that of YAP and controls proliferation via alternative cellular targets. Analysis of cervical cancer cell lines and patient biopsies revealed that TAZ expression was only significantly increased in HPV18+ and HPV18-like cells and TAZ knockdown reduced proliferation, migration and invasion only in HPV18+ cells. RNA-sequencing of HPV18+ cervical cells revealed that YAP and TAZ have distinct targets, suggesting they promote carcinogenesis by different mechanisms. Thus, in HPV18+ cancers, YAP and TAZ play non-redundant roles. This analysis identified TOGARAM2 as a previously uncharacterised TAZ target and demonstrates its role as a key effector of TAZ-mediated proliferation, migration and invasion in HPV18+ cancers.

Patterson MR ，Cogan JA ，Cassidy R ，Theobald DA ，Wang M ，Scarth JA ，Anene CA ，Whitehouse A ，Morgan EL ，Macdonald A ... -  《Nature Communications》

Nicotine enhances the stemness and tumorigenicity in intestinal stem cells via Hippo-YAP/TAZ and Notch signal pathway.

Cigarette smoking is a well-known risk factor inducing the development and progression of various diseases. Nicotine (NIC) is the major constituent of cigarette smoke. However, knowledge of the mechanism underlying the NIC-regulated stem cell functions is limited. In this study, we demonstrate that NIC increases the abundance and proliferative activity of murine intestinal stem cells (ISCs) in vivo and ex vivo. Moreover, NIC induces Yes-associated protein (YAP) /Transcriptional coactivator with PDZ-binding motif (TAZ) and Notch signaling in ISCs via α7-nicotinic acetylcholine receptor (nAchR) and protein kinase C (PKC) activation; this effect was not detected in Paneth cells. The inhibition of Notch signaling by dibenzazepine (DBZ) nullified the effects of NIC on ISCs. NIC enhances in vivo tumor formation from ISCs after loss of the tumor suppressor gene Apc, DBZ inhibited NIC-induced tumor growth. Hence, this study identifies a NIC-triggered pathway regulating the stemness and tumorigenicity of ISCs and suggests the use of DBZ as a potential therapeutic strategy for treating intestinal tumors.

Isotani R ，Igarashi M ，Miura M ，Naruse K ，Kuranami S ，Katoh M ，Nomura S ，Yamauchi T ... -  《eLife》

Differentiation-inducing factor-1 inhibits EMT by proteasomal degradation of TAZ and YAP in cervical and colon cancer cell lines.

We previously reported differentiation-inducing factor-1 (DIF-1) activated glycogen synthase kinase-3 (GSK-3) in various mammalian cells. GSK-3 has been proposed to regulate a number of signaling pathway including TAZ/YAP signaling pathway. To clarify the effect of DIF-1 on TAZ/YAP signaling pathway, we examined whether DIF-1 affect the expression levels of TAZ and YAP. We found that DIF-1-induced proteasomal- and GSK-3-dependent degradation of both TAZ and YAP in human cervical cancer cell line HeLa in a time- and dose-dependent manner. As TAZ/YAP signaling pathway is well known to accelerate the epithelial-mesenchymal transition (EMT) of the cancer cell, we examined the effect of TAZ/YAP signaling pathway on EMT-related proteins. Knockdown of TAZ and YAP proteins by siRNA significantly reduced the expression of fibronectin, vimentin, and Snail. We also found that DIF-1 suppressed the expression levels of TAZ/YAP target gene products and EMT-related protein. Further, overexpression of TAZ and YAP attenuated the inhibitory effects of DIF-1 on these protein expressions. Migration and trans-well invasion assays revealed that DIF-1 significantly inhibited HeLa cell migration and invasion. DIF-1-induced proteasomal- and GSK-3-dependent degradation of TAZ and YAP proteins and inhibition of cell migration and invasion were also observed in human colon cancer cell line HCT-116. These results suggest that DIF-1 inhibits the TAZ/YAP signaling pathway via GSK-3 activation. Further, it has been suggested that the inhibition of EMT induced by DIF-1 is involved with the suppression of TAZ/YAP signaling pathway.

Arioka M ，Yi W ，Igawa K ，Ishikane S ，Takahashi-Yanaga F ... -  《-》

Transcriptional regulation of KCNA2 coding Kv1.2 by EWS::FLI1: involvement in controlling the YAP/Hippo signalling pathway and cell proliferation.

Ewing sarcoma (ES), the second main pediatric bone sarcoma, is characterised by a chromosomal translocation leading to the formation of fusion proteins like EWS::FLI1. While several studies have shown that potassium channels drive the development of many tumours, limited data exist on ES. This work therefore aimed to study the transcriptional regulation of KCNA2 and define the involvement of the Kv1.2 channel encoded by KCNA2 in a key function of ES development, cell proliferation. KCNA2 expression in patients and cell lines was measured via bioinformatic analysis (RNA-Seq). The presence of a functional Kv1.2 channel was shown using patch-clamp experiments. Molecular biology approaches were used after EWS::FLI1 silencing to study the transcriptional regulation of KCNA2. Proliferation and cell count assessment were performed using cell biology approaches. KCNA2 silencing (siRNA) and RNA-Seq were performed to identify the signalling pathways involved in the ability of KCNA2 to drive cell proliferation. The regulation of the Hippo signalling pathway by KCNA2 was studied by measuring Hippo/YAP target genes expression, while YAP protein expression was studied with Western-Blot and immunofluorescence approaches. This research identified KCNA2 (encoding for a functional Kv1.2 channel) as highly expressed in ES biopsies and cell lines. The results indicated a correlation between KCNA2 expression and patient survival. The data also demonstrated that KCNA2/Kv1.2 is a direct target of EWS::FLI1, and identified the molecular mechanisms by which this chimeric protein regulates KCNA2 gene expression at the transcriptional level. Furthermore, the results indicated that KCNA2 expression and Kv1.2 activity regulate ES cell proliferation and that KCNA2 expression drives the Hippo/YAP signalling pathway. Using the specific Kv1.2 channel inhibitor (κ-Conotoxin), the results suggested that two complementary mechanisms are involved in this process, both dependently and independently of Kv1.2 functional channels at the plasma membrane. This study is the first to describe the involvement of KCNA2 expression and Kv1.2 channel in cancer development. The study also unveiled the involvement of KCNA2 in the regulation of the Hippo/YAP signalling cascade. Thus, this work suggests that KCNA2/Kv1.2 could be a potential therapeutic target in ES.

Dupuy M ，Postec A ，Mullard M ，Chantôme A ，Hulin P ，Brion R ，Gueguinou M ，Regnier L ，Potier-Cartereau M ，Brounais-Le Royer B ，Baud'huin M ，Georges S ，Lamoureux F ，Ory B ，Rédini F ，Vandier C ，Verrecchia F ... -  《Cell Communication and Signaling》

Notch-Driven Cholangiocarcinogenesis Involves the Hippo Pathway Effector TAZ via METTL3-m6A-YTHDF1.

Notch and TAZ are implicated in cholangiocarcinogenesis, but whether and how these oncogenic molecules interact remain unknown. The development of cholangiocarcinoma (CCA) was induced by hydrodynamic tail vein injection of oncogenes (Notch1 intracellular domain [NICD]/AKT) to the FVB/NJ mice. CCA xenograft was developed by inoculation of human CCA cells into the livers of SCID mice. Tissues and cells were analyzed using quantitative reverse transcription polymerase chain reaction, Western blotting analyses, immunohistochemistry, chromatin immunoprecipitation-quantitative polymerase chain reaction and WST-1 cell proliferation assay. Our experimental findings show that TAZ is indispensable in NICD-driven cholangiocarcinogenesis. Notch activation induces the expression of methyltransferase like-3 (METTL3), which catalyzes N6-methyladenosine modification of TAZ mRNA and that this mechanism plays a central role in the crosstalk between Notch and TAZ in CCA cells. Mechanistically, Notch regulates the expression of METTL3 through the binding of NICD to its downstream transcription factor CSL in the promoter region of METTL3. METTL3 in turn mediates N6-methyladenosine modification of TAZ mRNA, which is recognized by the m6A reader YTHDF1 to enhance TAZ protein translation. We observed that inhibition of Notch signaling decreased the protein levels of both MELLT3 and TAZ. Depletion of METTL3 by short hairpin RNAs or by the next generation GapmeR antisense oligonucleotides decreased the level of TAZ protein and inhibited the growth of human CCA cells in vitro and in mice. This study describes a novel Notch-METTL3-TAZ signaling cascade, which is important in CCA development and progression. Our experimental results provide new insight into how the Notch pathway cooperates with TAZ signaling in CCA, and the findings may have important therapeutic implications.

Ma W ，Zhang J ，Chen W ，Liu N ，Wu T ... -  《Cellular and Molecular Gastroenterology and Hepatology》