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Tamer Yagci - One of the best experts on this subject based on the ideXlab platform.

  • Hepatocellular Carcinoma Cells with Downregulated ZEB2 Become Resistant to Resveratrol by Concomitant Induction of ABCG2 Expression
    Molekuliarnaia biologiia, 2020
    Co-Authors: Pelin Balcik-ercin, Metin Cetin, Irem Yalim-camci, T. Uygur, Tamer Yagci
    Abstract:

    In hepatocellular carcinoma (HCC), the presence of cancer stem cells (CSCs) have been linked to drug resistance, epithelial-mesenchymal transition (EMT), and cancer relapse. This study investigates the expression profile of ZEB1, ZEB2, ABCG2 in HCC-CSCs, and the role of EMT promoter ZEB2 in cells treated with resveratrol. The expression of ZEB1, ZEB2 and ABCG2 transcripts were analyzed in CD133^(+)/CD44^(+) cells isolated from the PLC/PRF/5 cell line. ZEB2-dependent ABCG2 gene expression and the effects of resveratrol on proliferation, cell cycle and apoptosis were explored in SNU398 cell clones. An inverse correlation between ZEB1/ZEB2 and ABCG2 levels were observed both in CSCs and in ZEB2-knock-down cells. The resveratrol treatment significantly decreased cell viability, while promoting cell cycle arrest in ZEB2-independent manner. Interestingly, resveratrol-treated cells with low levels of ZEB2 were resistant to apoptosis. The interplay of expression levels of ABCG2 and ZEB family EMT transcription factors may play a role in establishing CSC-like phenotype in HCC cells resistant to resveratrol.

  • ETS1 is coexpressed with ZEB2 and mediates ZEB2-induced epithelial-mesenchymal transition in human tumors.
    Molecular carcinogenesis, 2019
    Co-Authors: Irem Yalim-camci, Pelin Balcik-ercin, Metin Cetin, Gorkem Odabas, Nurettin Tokay, A. Emre Sayan, Tamer Yagci
    Abstract:

    Epithelial-mesenchymal transition (EMT) is an embryonic program that is reactivated in cancer and regulates the invasion and metastasis of tumor cells. Zinc finger E-box binding homeobox 2 (ZEB2) induces EMT by upregulating matrix metalloproteinases (MMP), yet MMP genes lack ZEB2 binding motif in their promoters. Recently, expression of MMPs was associated to the activation of ETS1 transcription factor; however, a link between ZEB2 and ETS proto-oncogene 1, transcription factor (ETS1) remains to be elucidated. Hence, we investigated the transcriptional regulation of ETS1 by ZEB2 after our initial observation that ZEB2 and ETS1 are coexpressed in hepatocellular carcinoma cells (HCCs). Chromatin immunoprecipitation and luciferase reporter assays clearly showed that ZEB2 binds to E-box sequences on the promoter of ETS1. Elevated expression of ETS1 was found in DLD-ZEB2 and A431-ZEB2 inducible systems, and knockdown of ZEB2 caused an explicit downregulation of ETS1 in shZEB2-SNU398 and shZEB2-SK-HEP-1 cells. Repression of ETS1 expression in ZEB2-induced conditions substantially impaired the migration and invasive capacities of DLD1 cells. Mechanistically, knockdown of ETS1 in ZEB2-expressing cells resulted in the downregulation of established ZEB2 targets TWIST and MMP9. Correlation analyses in HCC lines, cancer complementary DNA arrays, and The Cancer Genome Atlas RNA-sequencing data set revealed that ZEB2 and ETS1 are coexpressed, and their expressions in human tumors show a highly significant positive correlation. Our results demonstrated that ZEB2 acts as an upstream regulator of ETS1 and, in turn, ETS1 maintains ZEB2-induced EMT. These findings add another level of complexity to the understanding of ZEB2 in the invasion and metastasis of cancer cells, and put ZEB2/ETS1 axis as a novel therapeutic target in human malignancies.

  • Genome-wide analysis of endogenously expressed ZEB2 binding sites reveals inverse correlations between ZEB2 and GalNAc-transferase GALNT3 in human tumors
    Cellular Oncology, 2018
    Co-Authors: Pelin Balcik-ercin, Metin Cetin, Irem Yalim-camci, Gorkem Odabas, Nurettin Tokay, A. Emre Sayan, Tamer Yagci
    Abstract:

    Background ZEB2 is a transcriptional repressor that regulates epithelial-to-mesenchymal transition (EMT) through binding to bipartite E-box motifs in gene regulatory regions. Despite the abundant presence of E-boxes within the human genome and the multiplicity of pathophysiological processes regulated during ZEB2-induced EMT, only a small fraction of ZEB2 targets has been identified so far. Hence, we explored genome-wide ZEB2 binding by chromatin immunoprecipitation-sequencing (ChIP-seq) under endogenous ZEB2 expression conditions. Methods For ChIP-Seq we used an anti-ZEB2 monoclonal antibody, clone 6E5, in SNU398 hepatocellular carcinoma cells exhibiting a high endogenous ZEB2 expression. The ChIP-Seq targets were validated using ChIP-qPCR, whereas ZEB2-dependent expression of target genes was assessed by RT-qPCR and Western blotting in shRNA-mediated ZEB2 silenced SNU398 cells and doxycycline-induced ZEB2 overexpressing colorectal carcinoma DLD1 cells. Changes in target gene expression were also assessed using primary human tumor cDNA arrays in conjunction with RT-qPCR. Additional differential expression and correlation analyses were performed using exp O and Human Protein Atlas datasets. Results Over 500 ChIP-Seq positive genes were annotated, and intervals related to these genes were found to include the ZEB2 binding motif CACCTG according to TOMTOM motif analysis in the MEME Suite database. Assessment of ZEB2-dependent expression of target genes in ZEB2-silenced SNU398 cells and ZEB2-induced DLD1 cells revealed that the GALNT3 gene serves as a ZEB2 target with the highest, but inversely correlated, expression level. Remarkably, GALNT3 also exhibited the highest enrichment in the ChIP-qPCR validation assays. Through the analyses of primary tumor cDNA arrays and exp O datasets a significant differential expression and a significant inverse correlation between ZEB2 and GALNT3 expression were detected in most of the tumors. We also explored ZEB2 and GALNT3 protein expression using the Human Protein Atlas dataset and, again, observed an inverse correlation in all analyzed tumor types, except malignant melanoma. In contrast to a generally negative or weak ZEB2 expression, we found that most tumor tissues exhibited a strong or moderate GALNT3 expression. Conclusions Our observation that ZEB2 negatively regulates a GalNAc-transferase (GALNT3) that is involved in O-glycosylation adds another layer of complexity to the role of ZEB2 in cancer progression and metastasis. Proteins glycosylated by GALNT3 may be exploited as novel diagnostics and/or therapeutic targets.

  • Genome-wide analysis of endogenously expressed ZEB2 binding sites reveals inverse correlations between ZEB2 and GalNAc-transferase GALNT3 in human tumors.
    Cellular oncology (Dordrecht), 2018
    Co-Authors: Pelin Balcik-ercin, Metin Cetin, Irem Yalim-camci, Gorkem Odabas, Nurettin Tokay, A. Emre Sayan, Tamer Yagci
    Abstract:

    ZEB2 is a transcriptional repressor that regulates epithelial-to-mesenchymal transition (EMT) through binding to bipartite E-box motifs in gene regulatory regions. Despite the abundant presence of E-boxes within the human genome and the multiplicity of pathophysiological processes regulated during ZEB2-induced EMT, only a small fraction of ZEB2 targets has been identified so far. Hence, we explored genome-wide ZEB2 binding by chromatin immunoprecipitation-sequencing (ChIP-seq) under endogenous ZEB2 expression conditions. For ChIP-Seq we used an anti-ZEB2 monoclonal antibody, clone 6E5, in SNU398 hepatocellular carcinoma cells exhibiting a high endogenous ZEB2 expression. The ChIP-Seq targets were validated using ChIP-qPCR, whereas ZEB2-dependent expression of target genes was assessed by RT-qPCR and Western blotting in shRNA-mediated ZEB2 silenced SNU398 cells and doxycycline-induced ZEB2 overexpressing colorectal carcinoma DLD1 cells. Changes in target gene expression were also assessed using primary human tumor cDNA arrays in conjunction with RT-qPCR. Additional differential expression and correlation analyses were performed using expO and Human Protein Atlas datasets. Over 500 ChIP-Seq positive genes were annotated, and intervals related to these genes were found to include the ZEB2 binding motif CACCTG according to TOMTOM motif analysis in the MEME Suite database. Assessment of ZEB2-dependent expression of target genes in ZEB2-silenced SNU398 cells and ZEB2-induced DLD1 cells revealed that the GALNT3 gene serves as a ZEB2 target with the highest, but inversely correlated, expression level. Remarkably, GALNT3 also exhibited the highest enrichment in the ChIP-qPCR validation assays. Through the analyses of primary tumor cDNA arrays and expO datasets a significant differential expression and a significant inverse correlation between ZEB2 and GALNT3 expression were detected in most of the tumors. We also explored ZEB2 and GALNT3 protein expression using the Human Protein Atlas dataset and, again, observed an inverse correlation in all analyzed tumor types, except malignant melanoma. In contrast to a generally negative or weak ZEB2 expression, we found that most tumor tissues exhibited a strong or moderate GALNT3 expression. Our observation that ZEB2 negatively regulates a GalNAc-transferase (GALNT3) that is involved in O-glycosylation adds another layer of complexity to the role of ZEB2 in cancer progression and metastasis. Proteins glycosylated by GALNT3 may be exploited as novel diagnostics and/or therapeutic targets.

  • sip1 protein protects cells from dna damage induced apoptosis and has independent prognostic value in bladder cancer
    Proceedings of the National Academy of Sciences of the United States of America, 2009
    Co-Authors: Emre A Sayan, Tamer Yagci, Thomas R Griffiths, R Pal, Gareth J Browne, Andrew Ruddick, Richard Edwards, Nick Mayer, Hasan Qazi, Sandeep Goyal
    Abstract:

    The epithelial-mesenchymal transition (EMT) contributes to cancer metastasis. Two ZEB family members, ZEB1 and ZEB2(SIP1), inhibit transcription of the E-cadherin gene and induce EMT in vitro. However, their relevance to human cancer is insufficiently studied. Here, we performed a comparative study of SIP1 and ZEB1 proteins in cancer cell lines and in one form of human malignancy, carcinoma of the bladder. Whereas ZEB1 protein was expressed in all E-cadherin-negative carcinoma cell lines, being in part responsible for the high motility of bladder cancer cells, SIP1 was hardly ever detectable in carcinoma cells in culture. However, SIP1 represented an independent factor of poor prognosis (P = 0.005) in a series of bladder cancer specimens obtained from patients treated with radiotherapy. In contrast, ZEB1 was rarely expressed in tumor tissues; and E-cadherin status did not correlate with the patients' survival. SIP1 protected cells from UV- and cisplatin-induced apoptosis in vitro but had no effect on the level of DNA damage. The anti-apoptotic effect of SIP1 was independent of either cell cycle arrest or loss of cell-cell adhesion and was associated with reduced phosphorylation of ATM/ATR targets in UV-treated cells. The prognostic value of SIP1 and its role in DNA damage response establish a link between genetic instability and metastasis and suggest a potential importance for this protein as a therapeutic target. In addition, we conclude that the nature of an EMT pathway rather than the deregulation of E-cadherin per se is critical for the progression of the disease and patients' survival.

Thomas Brabletz - One of the best experts on this subject based on the ideXlab platform.

  • the zeb mir 200 feedback loop a motor of cellular plasticity in development and cancer
    EMBO Reports, 2010
    Co-Authors: Simone Brabletz, Thomas Brabletz
    Abstract:

    Epithelial-to-mesenchymal transition (EMT) is a fundamental process in development and disease. Zinc-finger enhancer binding (ZEB) transcription factors (ZEB1 and ZEB2) are crucial EMT activators, whereas members of the miR-200 family induce epithelial differentiation. They are reciprocally linked in a feedback loop, each strictly controlling the expression of the other. Now data show that EMT not only confers cellular motility, but also induces stem-cell properties and prevents apoptosis and senescence. Thus the balanced expression of ZEB factors and miR-200 controls all these processes. We therefore propose that the ZEB/miR-200 feedback loop is the molecular motor of cellular plasticity in development and disease, and in particular is a driving force for cancer progression towards metastasis by controlling the state of cancer stem cells.

  • The ZEB/miR‐200 feedback loop—a motor of cellular plasticity in development and cancer?
    EMBO reports, 2010
    Co-Authors: Simone Brabletz, Thomas Brabletz
    Abstract:

    Epithelial-to-mesenchymal transition (EMT) is a fundamental process in development and disease. Zinc-finger enhancer binding (ZEB) transcription factors (ZEB1 and ZEB2) are crucial EMT activators, whereas members of the miR-200 family induce epithelial differentiation. They are reciprocally linked in a feedback loop, each strictly controlling the expression of the other. Now data show that EMT not only confers cellular motility, but also induces stem-cell properties and prevents apoptosis and senescence. Thus the balanced expression of ZEB factors and miR-200 controls all these processes. We therefore propose that the ZEB/miR-200 feedback loop is the molecular motor of cellular plasticity in development and disease, and in particular is a driving force for cancer progression towards metastasis by controlling the state of cancer stem cells.

Herve Acloque - One of the best experts on this subject based on the ideXlab platform.

  • snail2 and ZEB2 repress p cadherin to define embryonic territories in the chick embryo
    Development, 2017
    Co-Authors: Herve Acloque, Oscar H Ocana, Diana Abad, Claudio D. Stern, Angela M Nieto
    Abstract:

    Snail and Zeb transcription factors induce epithelial to mesenchymal transition (EMT) in embryonic and adult tissues by direct repression of E-Cadherin transcription. The repression of E-Cadherin transcription by the EMT inducers Snail1 and ZEB2 plays a fundamental role in defining embryonic territories in the mouse, as E-Cadherin needs to be downregulated in the primitive streak and in the epiblast concomitant with the formation of mesendodermal precursors and the neural plate, respectively. Here we show that in the chick embryo, E-Cadherin is weakly expressed in the epiblast at pre-primitive streak stages where it is substituted by P-Cadherin We also show that Snail2 and ZEB2 repress P-Cadherin transcription in the primitive streak and the neural plate, respectively. This indicates that E- and P-Cadherin expression patterns evolved differently between chick and mouse. As such, the Snail1/E-Cadherin axis described in the early mouse embryo corresponds to Snail2/P-Cadherin in the chick, but both Snail factors and ZEB2 fulfill a similar role in chick and mouse in directly repressing ectodermal Cadherins to promote the delamination of mesendodermal precursors at gastrulation and the proper specification of the neural ectoderm during neural induction.

  • Snail2 and ZEB2 repress P-cadherin to define embryonic territories in the chick embryo
    Development (Cambridge England), 2017
    Co-Authors: Herve Acloque, Oscar H Ocana, Diana Abad, Cd Stern, M.a. Nieto
    Abstract:

    Snail and Zeb transcription factors induce epithelial-to-mesenchymal transition (EMT) in embryonic and adult tissues by direct repression of E-cadherin transcription. The repression of E-cadherin transcription by the EMT inducers Snail1 and ZEB2 plays a fundamental role in defining embryonic territories in the mouse, as E-cadherin needs to be downregulated in the primitive streak and in the epiblast, concomitant with the formation of mesendodermal precursors and the neural plate, respectively. Here, we show that in the chick embryo, E-cadherin is weakly expressed in the epiblast at pre-primitive streak stages where it is substituted for by P-cadherin. We also show that Snail2 and ZEB2 repress P-cadherin transcription in the primitive streak and the neural plate, respectively. This indicates that E- and P-cadherin expression patterns evolved differently between chick and mouse. As such, the Snail1/E-cadherin axis described in the early mouse embryo corresponds to Snail2/Pcadherin in the chick, but both Snail factors and ZEB2 fulfil a similar role in chick and mouse in directly repressing ectodermal cadherin genes to contribute to the delamination of mesendodermal precursors at gastrulation and the proper specification of the neural ectoderm during neural induction.

Chul Soo Park - One of the best experts on this subject based on the ideXlab platform.

  • expression of mirnas and zeb1 and ZEB2 correlates with histopathological grade in papillary urothelial tumors of the urinary bladder
    Virchows Archiv, 2014
    Co-Authors: Heejeong Lee, Sunyoung Jun, Younsoo Lee, Hee Jin Lee, Weon Sun Lee, Chul Soo Park
    Abstract:

    Histopathological grading of papillary urothelial tumors (PUTs) of the urinary bladder is subjective and poorly reproducible. We investigated the relationship between the expression of frequently deregulated microRNAs (miRNAs) as well as their target genes (ZEB1/ZEB2) and bladder cancer histopathological grade in an attempt to find a miRNA that might allow more reliable grading of PUTs. We measured the expression levels of four miRNAs (miR-145, miR-205, miR-125b, and miR-200c) in 120 formalin-fixed, paraffin-embedded bladder tumor tissue samples using real-time PCR assays. ZEB1 and ZEB2 expression was assessed in the same bladder tissues by immunohistochemistry. MiR-205 distinguished low-grade papillary urothelial carcinoma (LG) from high-grade papillary urothelial carcinoma (HG), and miR-145 distinguished HG from infiltrating carcinoma (CA) with an area under the receiver operator characteristic curve (AUC) of 0.992 and 0.997, respectively (sensitivity/specificity of 95.8/96.7 % and 100/91.7 %, respectively; p < 0.05). The expression level of miR-125b was significantly lower in LG than in PUNLMP, with an AUC value of 0.870 (93.3 % sensitivity and 84.2 % specificity; p < 0.05). ZEB1 immunoreactivity was more frequently detected in HG than in LG (57 % vs 13 %, p < 0.01) and in HG than in CA (57 % vs 17 %, p < 0.01). ZEB2 immunoreactivity was more frequent in CA than in HG (83 % vs 54 %, p < 0.05). ZEB1/ZEB2 and miRNAs expression seems to reliably distinguish between different grades of PUTs of the urinary bladder. They might well serve as useful complementary diagnostic biomarkers for grading of papillary urothelial tumors.

  • Expression of miRNAs and ZEB1 and ZEB2 correlates with histopathological grade in papillary urothelial tumors of the urinary bladder
    Virchows Archiv, 2014
    Co-Authors: Chul Soo Park
    Abstract:

    Histopathological grading of papillary urothelial tumors (PUTs) of the urinary bladder is subjective and poorly reproducible. We investigated the relationship between the expression of frequently deregulated microRNAs (miRNAs) as well as their target genes (ZEB1/ZEB2) and bladder cancer histopathological grade in an attempt to find a miRNA that might allow more reliable grading of PUTs. We measured the expression levels of four miRNAs (miR-145, miR-205, miR-125b, and miR-200c) in 120 formalin-fixed, paraffin-embedded bladder tumor tissue samples using real-time PCR assays. ZEB1 and ZEB2 expression was assessed in the same bladder tissues by immunohistochemistry. MiR-205 distinguished low-grade papillary urothelial carcinoma (LG) from high-grade papillary urothelial carcinoma (HG), and miR-145 distinguished HG from infiltrating carcinoma (CA) with an area under the receiver operator characteristic curve (AUC) of 0.992 and 0.997, respectively (sensitivity/specificity of 95.8/96.7 % and 100/91.7 %, respectively; p  

Simone Brabletz - One of the best experts on this subject based on the ideXlab platform.

  • the zeb mir 200 feedback loop a motor of cellular plasticity in development and cancer
    EMBO Reports, 2010
    Co-Authors: Simone Brabletz, Thomas Brabletz
    Abstract:

    Epithelial-to-mesenchymal transition (EMT) is a fundamental process in development and disease. Zinc-finger enhancer binding (ZEB) transcription factors (ZEB1 and ZEB2) are crucial EMT activators, whereas members of the miR-200 family induce epithelial differentiation. They are reciprocally linked in a feedback loop, each strictly controlling the expression of the other. Now data show that EMT not only confers cellular motility, but also induces stem-cell properties and prevents apoptosis and senescence. Thus the balanced expression of ZEB factors and miR-200 controls all these processes. We therefore propose that the ZEB/miR-200 feedback loop is the molecular motor of cellular plasticity in development and disease, and in particular is a driving force for cancer progression towards metastasis by controlling the state of cancer stem cells.

  • The ZEB/miR‐200 feedback loop—a motor of cellular plasticity in development and cancer?
    EMBO reports, 2010
    Co-Authors: Simone Brabletz, Thomas Brabletz
    Abstract:

    Epithelial-to-mesenchymal transition (EMT) is a fundamental process in development and disease. Zinc-finger enhancer binding (ZEB) transcription factors (ZEB1 and ZEB2) are crucial EMT activators, whereas members of the miR-200 family induce epithelial differentiation. They are reciprocally linked in a feedback loop, each strictly controlling the expression of the other. Now data show that EMT not only confers cellular motility, but also induces stem-cell properties and prevents apoptosis and senescence. Thus the balanced expression of ZEB factors and miR-200 controls all these processes. We therefore propose that the ZEB/miR-200 feedback loop is the molecular motor of cellular plasticity in development and disease, and in particular is a driving force for cancer progression towards metastasis by controlling the state of cancer stem cells.