Kerstin Mock scite author profile

Early dissemination, metastasis and therapy resistance are central hallmarks of aggressive cancer types and the leading cause of cancer-associated deaths. The EMT-inducing transcriptional repressor ZEB1 is a crucial stimulator of these processes, particularly by coupling the activation of cellular motility with stemness and survival properties. ZEB1 expression is associated with aggressive behaviour in many tumour types, but the potent effects cannot be solely explained by its proven function as a transcriptional repressor of epithelial genes. Here we describe a direct interaction of ZEB1 with the Hippo pathway effector YAP, but notably not with its paralogue TAZ. In consequence, ZEB1 switches its function to a transcriptional co-activator of a 'common ZEB1/YAP target gene set', thereby linking two pathways with similar cancer promoting effects. This gene set is a predictor of poor survival, therapy resistance and increased metastatic risk in breast cancer, indicating the clinical relevance of our findings.

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A self‐enforcing CD44s/ZEB1 feedback loop maintains EMT and stemness properties in cancer cells

Preca

Bajdak

Mock

et al. 2015

Intl Journal of Cancer

159

138

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Invasion and metastasis of carcinomas are often activated by induction of aberrant epithelial-mesenchymal transition (EMT). This is mainly driven by the transcription factor ZEB1, promoting tumor-initiating capacity correlated with increased expression of the putative stem cell marker CD44. However, the direct link between ZEB1, CD44 and tumourigenesis is still enigmatic. Remarkably, EMT-induced repression of ESRP1 controls alternative splicing of CD44, causing a shift in the expression from the variant CD44v to the standard CD44s isoform. We analyzed whether CD44 and ZEB1 regulate each other and show that ZEB1 controls CD44s splicing by repression of ESRP1 in breast and pancreatic cancer. Intriguingly, CD44s itself activates the expression of ZEB1, resulting in a self-sustaining ZEB1 and CD44s expression. Activation of this novel CD44s-ZEB1 regulatory loop has functional impact on tumor cells, as evident by increased tumor-sphere initiation capacity, drug-resistance and tumor recurrence. In summary, we identified a self-enforcing feedback loop that employs CD44s to activate ZEB1 expression. This renders tumor cell stemness independent of external stimuli, as ZEB1 downregulates ESRP1, further promoting CD44s isoform synthesis.Tumor recurrence and metastasis represent the two major obstacles in the successful treatment of cancer. Increasing evidence suggests that the aggressive phenotype of this disease is associated with the activation of an embryonic program termed epithelial-mesenchymal transition (EMT), a process in which epithelial cells lose apical-basal cell polarity and change to a mesenchymal phenotype. [1][2][3] In order to initiate and complete an EMT, several distinct molecular programsKey words: cancer stem cells, epithelial-mesenchymal transition (EMT), metastasis, drug resistance, differential splicing Abbreviations: bHLH: basic helix-loop-helix; CD44s: cluster of differentiation 44, standard isoform; CD44v: cluster of differentiation 44, variant isoforms; ChIP: chromatin immunoprecipitation; CSC: cancer stem cell; Dox: doxycycline; EGF: epidermal growth factor; EMT: epithelial-mesenchymal transition; ESRP1: epithelial splicing regulatory protein 1; FGF: fibroblast growth factor; HGF/SF: hepatic growth factor/scatter factor; hnRNPM: heterogeneous nuclear ribonucleoprotein M; PDAC: pancreas ductal adenocarcinoma; shRNA: small hairpin ribonucleic acid; siRNA: small interference ribonucleic acid; TGFb: transforming growth factor b; ZEB: zinc-finger and E-box binding; ZFH: zinc-finger homeodomain

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ZEB 1‐associated drug resistance in cancer cells is reversed by the class I HDAC inhibitor mocetinostat

et al. 2015

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Therapy resistance is a major clinical problem in cancer medicine and crucial for disease relapse and progression. Therefore, the clinical need to overcome it, particularly for aggressive tumors such as pancreatic cancer, is very high. Aberrant activation of an epithelial–mesenchymal transition (EMT) and an associated cancer stem cell phenotype are considered a major cause of therapy resistance. Particularly, the EMT-activator ZEB1 was shown to confer stemness and resistance. We applied a systematic, stepwise strategy to interfere with ZEB1 function, aiming to overcome drug resistance. This led to the identification of both its target gene miR-203 as a major drug sensitizer and subsequently the class I HDAC inhibitor mocetinostat as epigenetic drug to interfere with ZEB1 function, restore miR-203 expression, repress stemness properties, and induce sensitivity against chemotherapy. Thereby, mocetinostat turned out to be more effective than other HDAC inhibitors, such as SAHA, indicating the relevance of the screening strategy. Our data encourage the application of mechanism-based combinations of selected epigenetic drugs with standard chemotherapy for the rational treatment of aggressive solid tumors, such as pancreatic cancer.

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Kerstin Mock

ZEB1 turns into a transcriptional activator by interacting with YAP1 in aggressive cancer types

A self‐enforcing CD44s/ZEB1 feedback loop maintains EMT and stemness properties in cancer cells

ZEB 1‐associated drug resistance in cancer cells is reversed by the class I HDAC inhibitor mocetinostat

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