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Fernandez-De-Los-Reyes I, Gomez-Dorronsoro M, Monreal-Santesteban I, Fernandez-Fernandez A, Fraga M, Azcue P, Alonso L, Fernandez-Marlasca B, Suarez J, Cordoba-Iturriagagoitia A, Guerrero-Setas D. ZEB1 hypermethylation is associated with better prognosis in patients with colon cancer. Clin Epigenetics 2023; 15:193. [PMID: 38093305 PMCID: PMC10720242 DOI: 10.1186/s13148-023-01605-7] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/09/2023] [Accepted: 11/19/2023] [Indexed: 12/17/2023] Open
Abstract
BACKGROUND Colon cancer (CC) is a heterogeneous disease that is categorized into four Consensus Molecular Subtypes (CMS) according to gene expression. Patients with loco-regional CC (stages II/III) lack prognostic factors, making it essential to analyze new molecular markers that can delineate more aggressive tumors. Aberrant methylation of genes that are essential in crucial mechanisms such as epithelial mesenchymal transition (EMT) contributes to tumor progression in CC. We evaluate the presence of hyper- and hypomethylation in subrogate IHC markers used for CMS classification (CDX2, FRMD6, HTR2B, ZEB1) of 144 stage II/III patients and CC cell lines by pyrosequencing. ZEB1 expression was also studied in control and shRNA-silenced CC cell lines and in paired normal tissue/tumors by quantitative PCR. The pattern of ZEB1 staining was also analyzed in methylated/unmethylated tumors by immunohistochemistry. RESULTS We describe for the first time the hypermethylation of ZEB1 gene and the hypomethylation of the FRMD6 gene in 32.6% and 50.9% of tumors, respectively. Additionally, we confirm the ZEB1 re-expression by epigenetic drugs in methylated cell lines. ZEB1 hypermethylation was more frequent in CMS1 patients and, more importantly, was a good prognostic factor related to disease-free survival (p = 0.015) and overall survival (p = 0.006) in our patient series, independently of other significant clinical parameters such as patient age, stage, lymph node involvement, and blood vessel and perineural invasion. CONCLUSIONS Aberrant methylation is present in the subrogate genes used for CMS classification. Our results are the first evidence that ZEB1 is hypermethylated in CC and that this alteration is an independent factor of good prognosis.
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Affiliation(s)
- Irene Fernandez-De-Los-Reyes
- Department of Pathology, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain
- Molecular Pathology of Cancer Group, Navarrabiomed, Universidad Pública de Navarra (UPNA), Instituto de Investigación Sanitaria de Navarra (IdiSNA), Irunlarrea 3, 31008, Pamplona, Spain
| | - Marisa Gomez-Dorronsoro
- Department of Pathology, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain
- Oncogenetic and Hereditary Cancer Group, Universidad Pública de Navarra (UPNA), Instituto de Investigación Sanitaria de Navarra (IdiSNA), Irunlarrea 3, 31008, Pamplona, Spain
| | - Iñaki Monreal-Santesteban
- Molecular Pathology of Cancer Group, Navarrabiomed, Universidad Pública de Navarra (UPNA), Instituto de Investigación Sanitaria de Navarra (IdiSNA), Irunlarrea 3, 31008, Pamplona, Spain
| | - Agustín Fernandez-Fernandez
- Nanomaterials and Nanotechnology Research Center (CINN-CSIC), 33940, El Entrego, Spain
- Health Research Institute of Asturias (ISPA), 33011, Oviedo, Spain
- University Institute of Oncology (IUOPA), University of Oviedo, 33006, Oviedo, Spain
- Center for Biomedical Network Research on Rare Diseases (CIBERER), 28029, Madrid, Spain
| | - Mario Fraga
- Nanomaterials and Nanotechnology Research Center (CINN-CSIC), 33940, El Entrego, Spain
- Health Research Institute of Asturias (ISPA), 33011, Oviedo, Spain
- University Institute of Oncology (IUOPA), University of Oviedo, 33006, Oviedo, Spain
- Center for Biomedical Network Research on Rare Diseases (CIBERER), 28029, Madrid, Spain
| | - Pablo Azcue
- Department of Health Science, Public University of Navarra, Irunlarrea 3, 31008, Pamplona, Spain
| | - Laura Alonso
- Department of Pathology, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain
| | | | - Javier Suarez
- Department of Surgery, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain
| | - Alicia Cordoba-Iturriagagoitia
- Department of Pathology, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain
- Molecular Pathology of Cancer Group, Navarrabiomed, Universidad Pública de Navarra (UPNA), Instituto de Investigación Sanitaria de Navarra (IdiSNA), Irunlarrea 3, 31008, Pamplona, Spain
| | - David Guerrero-Setas
- Department of Pathology, Hospital Universitario de Navarra (HUN), Irunlarrea 3, 31008, Pamplona, Spain.
- Molecular Pathology of Cancer Group, Navarrabiomed, Universidad Pública de Navarra (UPNA), Instituto de Investigación Sanitaria de Navarra (IdiSNA), Irunlarrea 3, 31008, Pamplona, Spain.
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Li H, Yang W, Zhang M, He T, Zhou F, G Herman J, Hu L, Guo M. Methylation of TMEM176A, a key ERK signaling regulator, is a novel synthetic lethality marker of ATM inhibitors in human lung cancer. Epigenomics 2021; 13:1403-1419. [PMID: 34558311 DOI: 10.2217/epi-2021-0217] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/24/2022] Open
Abstract
Aim: The role of TMEM176A methylation in lung cancer and its therapeutic application remains unclear. Materials and methods: Nine lung cancer cell lines and 123 cases of cancer tissue samples were employed. Results: TMEM176A was methylated in 53.66% of primary lung cancer. Restoration of TMEM176A expression induced cell apoptosis and G2/M phase arrest, and inhibited colony formation, cell proliferation, migration and invasion. TMEM176A suppressed H1299 cell xenograft growth in mice. Methylation of TMEM176A activated ERK signaling and sensitized H1299 and H23 cells to AZD0156, an ATM inhibitor. Conclusion: The expression of TMEM176A is regulated by promoter region methylation. Methylation of TMEM176A is a potential lung cancer diagnostic marker and a novel synthetic lethal therapeutic marker for AZD0156.
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Affiliation(s)
- Hongxia Li
- Department of Gastroenterology & Hepatology, Chinese PLA General Hospital, 28 Fuxing Road, Beijing, 100853, China.,Faculty of Environmental & Life Science, Beijing Key Laboratory of Environmental & Oncology, Beijing University of Technology, Beijing, 100124, China
| | - Weili Yang
- Department of Gastroenterology & Hepatology, Chinese PLA General Hospital, 28 Fuxing Road, Beijing, 100853, China
| | - Meiying Zhang
- Department of Gastroenterology & Hepatology, Chinese PLA General Hospital, 28 Fuxing Road, Beijing, 100853, China
| | - Tao He
- Department of Pathology, Characteristic Medical Center of The Chinese People's Armed Police Force, Tianjin, 300162, China
| | - Fuyou Zhou
- Department of Thoracic Surgery, Anyang Tumor Hospital, Anyang, 455000, Henan, China
| | - James G Herman
- The Hillman Cancer Center, University of Pittsburgh Cancer Institute, 5117 Centre Avenue, Suite 2.18/Research, Pittsburgh, PA 15213, USA
| | - Liming Hu
- Faculty of Environmental & Life Science, Beijing Key Laboratory of Environmental & Oncology, Beijing University of Technology, Beijing, 100124, China
| | - Mingzhou Guo
- Department of Gastroenterology & Hepatology, Chinese PLA General Hospital, 28 Fuxing Road, Beijing, 100853, China.,Henan Key Laboratory for Esophageal Cancer Research, Zhengzhou University, 40 Daxue Road, Zhengzhou, Henan, 450052, China.,State Key Laboratory of Kidney Diseases, Chinese PLA General Hospital, #28 Fuxing Road, Beijing, 100853, China
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3
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Gao A, Guo M. Epigenetic based synthetic lethal strategies in human cancers. Biomark Res 2020; 8:44. [PMID: 32974031 PMCID: PMC7493427 DOI: 10.1186/s40364-020-00224-1] [Citation(s) in RCA: 16] [Impact Index Per Article: 4.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/26/2020] [Accepted: 09/04/2020] [Indexed: 02/08/2023] Open
Abstract
Over the past decades, it is recognized that loss of DNA damage repair (DDR) pathways is an early and frequent event in tumorigenesis, occurring in 40-50% of many cancer types. The basis of synthetic lethality in cancer therapy is DDR deficient cancers dependent on backup DNA repair pathways. In cancer, the concept of synthetic lethality has been extended to pairs of genes, in which inactivation of one by deletion or mutation and pharmacological inhibition of the other leads to death of cancer cells whereas normal cells are spared the effect of the drug. The paradigm study is to induce cell death by inhibiting PARP in BRCA1/2 defective cells. Since the successful application of PARP inhibitor, a growing number of developed DDR inhibitors are ongoing in preclinical and clinical testing, including ATM, ATR, CHK1/2 and WEE1 inhibitors. Combination of PARP inhibitors and other DDR inhibitors, or combination of multiple components of the same pathway may have great potential synthetic lethality efficiency. As epigenetics joins Knudson’s two hit theory, silencing of DDR genes by aberrant epigenetic changes provide new opportunities for synthetic lethal therapy in cancer. Understanding the causative epigenetic changes of loss-of-function has led to the development of novel therapeutic agents in cancer. DDR and related genes were found frequently methylated in human cancers, including BRCA1/2, MGMT, WRN, MLH1, CHFR, P16 and APC. Both genetic and epigenetic alterations may serve as synthetic lethal therapeutic markers.
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Affiliation(s)
- Aiai Gao
- Department of Gastroenterology and Hepatology, Chinese PLA General Hospital, #28 Fuxing Road, Beijing, 100853 China
| | - Mingzhou Guo
- Department of Gastroenterology and Hepatology, Chinese PLA General Hospital, #28 Fuxing Road, Beijing, 100853 China.,Henan Key Laboratory for Esophageal Cancer Research, Zhengzhou University, 40 Daxue Road, Zhengzhou, 450052 Henan China.,State Key Laboratory of Kidney Diseases, Chinese PLA General Hospital, #28 Fuxing Road, Beijing, 100853 China
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Grape pomace inhibits colon carcinogenesis by suppressing cell proliferation and inducing epigenetic modifications. J Nutr Biochem 2020; 84:108443. [PMID: 32629240 DOI: 10.1016/j.jnutbio.2020.108443] [Citation(s) in RCA: 12] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/05/2020] [Revised: 04/23/2020] [Accepted: 05/27/2020] [Indexed: 12/18/2022]
Abstract
Grape pomace (GP), a by-product of the wine and juice industry, is rich in bioflavonoids and dietary fibers. We hypothesized that GP has protective effects against colitis-associated colorectal cancer (CRC). Nine-week-old female mice were fed a control diet (CON) or CON with 5% grape pomace (GP) for 2 weeks, when mice were subjected to azoxymethane (AOM)/dextran sulfate sodium (DSS) induced-CRC induction. GP supplementation ameliorated the disease activity index (DAI) score, reduced tumor number, tumor size and pathological scores in AOM/DSS treated mice. Furthermore, dietary GP suppressed colonic expression of inflammatory cytokines, IL-1β and TNF-α, and inhibited NF-κB inflammatory signaling, while increased anti-inflammatory cytokine TGF-β mRNA expression. Colorectal inflammation is known to enhance Wnt signaling and cell proliferation. In agreement, the content of β-catenin, a key downstream mediator of Wnt signaling, was reduced as was the expression of Cyclin D1, phosphorylation and content of p53 and PCNA level in GP-fed mice. In addition, GP reduced the expression of ALDH1, a marker of cell stemness, and increased the expression of Cdx2, a key transcription factor initiating epithelial cell differentiation, DNA methylation of the promoter region of Cdx2 gene and hypermethylation of CpG island methylator phenotype (CIMP), which commonly occurs during CRC carcinogenesis, was alleviated in the GP group. In conclusion, GP supplementation suppressed colitis-associated CRC carcinogenesis, which was associated with the suppression of inflammation and cell proliferation and the enhancement of DNA demethylation in Cdx2 and CIMP genes in the colon. These data suggest that dietary GP supplementation has preventive effects against colorectal carcinogenesis.
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Clinicopathologic Significance of Intestinal-type Molecules' Expression and Different EGFR Gene Status in Pulmonary Adenocarcinoma. Appl Immunohistochem Mol Morphol 2019; 27:364-372. [PMID: 29489510 DOI: 10.1097/pai.0000000000000632] [Citation(s) in RCA: 7] [Impact Index Per Article: 1.4] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/18/2022]
Abstract
Variant pulmonary adenocarcinoma with intestinal-type molecules shares similar molecular expression with colorectal carcinoma. However, expression of such molecules and their association with survival time with clinicopathologic parameters, such as epidermal growth factor receptor (EGFR) gene status in other types of pulmonary adenocarcinoma, has been rarely demonstrated. Sixty patients with resected pulmonary adenocarcinoma were divided into the enteric differentiation group (I group, n=30) and the usual group (U group, n=30). Immunohistochemical staining was used to assess the expression of carcinoembryonic antigen (CEA), Villin, CK20, and caudal-related homeobox 2 (CDX2). EGFR gene status was examined by Fluorescence Quantitative polymerase chain reaction. Kaplan-Meier survival curve was drawn by GraphPad Prism 5.0 software. The results showed that there was a significant difference between the 2 groups (P<0.05) in the expression of Villin, CK20, and CDX2, whereas the expression of CEA showed no significant difference (P>0.05). Compared with the U group, patients in the I group were mainly female individuals and in clinical stages III to IV, prone to lymph node metastasis (P<0.05). The patients in the I group with CDX2CK20 phenotype (tumor size>5 cm) had a shorter survival time (P<0.05), and EGFR gene status was not associated with median survival time and the expression of CEA, Villin, CK20, and CDX2 (P>0.05). Thus, our research indicates that patients with enteric differentiation have unique clinical characteristics and different prognosis, which may play important roles in diagnosis and choosing therapeutic strategies for pulmonary adenocarcinoma patients in clinical practice.
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Tong K, Pellón-Cárdenas O, Sirihorachai VR, Warder BN, Kothari OA, Perekatt AO, Fokas EE, Fullem RL, Zhou A, Thackray JK, Tran H, Zhang L, Xing J, Verzi MP. Degree of Tissue Differentiation Dictates Susceptibility to BRAF-Driven Colorectal Cancer. Cell Rep 2019; 21:3833-3845. [PMID: 29281831 DOI: 10.1016/j.celrep.2017.11.104] [Citation(s) in RCA: 45] [Impact Index Per Article: 9.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/09/2017] [Revised: 11/09/2017] [Accepted: 11/29/2017] [Indexed: 02/07/2023] Open
Abstract
Oncogenic mutations in BRAF are believed to initiate serrated colorectal cancers; however, the mechanisms of BRAF-driven colon cancer are unclear. We find that oncogenic BRAF paradoxically suppresses stem cell renewal and instead promotes differentiation. Correspondingly, tumor formation is inefficient in BRAF-driven mouse models of colon cancer. By reducing levels of differentiation via genetic manipulation of either of two distinct differentiation-promoting factors (Smad4 or Cdx2), stem cell activity is restored in BRAFV600E intestines, and the oncogenic capacity of BRAFV600E is amplified. In human patients, we observe that reduced levels of differentiation in normal tissue is associated with increased susceptibility to serrated colon tumors. Together, these findings help resolve the conditions necessary for BRAF-driven colon cancer initiation. Additionally, our results predict that genetic and/or environmental factors that reduce tissue differentiation will increase susceptibility to serrated colon cancer. These findings offer an opportunity to identify susceptible individuals by assessing their tissue-differentiation status.
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Affiliation(s)
- Kevin Tong
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA; Rutgers Cancer Institute of New Jersey (CINJ), 195 Little Albany Street, New Brunswick, NJ 08903, USA
| | - Oscar Pellón-Cárdenas
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA; Rutgers Cancer Institute of New Jersey (CINJ), 195 Little Albany Street, New Brunswick, NJ 08903, USA
| | - Veerin R Sirihorachai
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Bailey N Warder
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Om A Kothari
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Ansu O Perekatt
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA; Rutgers Cancer Institute of New Jersey (CINJ), 195 Little Albany Street, New Brunswick, NJ 08903, USA
| | - Emily E Fokas
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Robert L Fullem
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Anbo Zhou
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Joshua K Thackray
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Hiep Tran
- Waksman Institute, Rutgers University, Piscataway, NJ 08854, USA
| | - Lanjing Zhang
- Rutgers Cancer Institute of New Jersey (CINJ), 195 Little Albany Street, New Brunswick, NJ 08903, USA; Department of Pathology, University Medical Center of Princeton, Plainsboro, NJ 08536, USA
| | - Jinchuan Xing
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA
| | - Michael P Verzi
- Department of Genetics, Rutgers University, Human Genetics Institute of New Jersey (HGINJ), 145 Bevier Road, Piscataway Township, NJ 08854, USA; Rutgers Cancer Institute of New Jersey (CINJ), 195 Little Albany Street, New Brunswick, NJ 08903, USA.
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7
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CDX2 inhibits the proliferation and tumor formation of colon cancer cells by suppressing Wnt/β-catenin signaling via transactivation of GSK-3β and Axin2 expression. Cell Death Dis 2019; 10:26. [PMID: 30631044 PMCID: PMC6328578 DOI: 10.1038/s41419-018-1263-9] [Citation(s) in RCA: 100] [Impact Index Per Article: 20.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/06/2018] [Revised: 10/31/2018] [Accepted: 12/04/2018] [Indexed: 02/06/2023]
Abstract
Caudal-related homeobox transcription factor 2 (CDX2), an intestine-specific nuclear transcription factor, has been strongly implicated in the tumourigenesis of various human cancers. However, the functional role of CDX2 in the development and progression of colorectal cancer (CRC) is not well known. In this study, CDX2 knockdown in colon cancer cells promoted cell proliferation in vitro, accelerated tumor formation in vivo, and induced a cell cycle transition from G0/G1 to S phase, whereas CDX2 overexpression inhibited cell proliferation. TOP/FOP-Flash reporter assay showed that CDX2 knockdown or CDX2 overexpression significantly increased or decreased Wnt signaling activity. Western blot assay showed that downstream targets of Wnt signaling, including β-catenin, cyclin D1 and c-myc, were up-regulated or down-regulated in CDX2-knockdown or CDX2-overexpressing colon cancer cells. In addition, suppression of Wnt signaling by XAV-939 led to a marked suppression of the cell proliferation enhanced by CDX2 knockdown, whereas activation of this signaling by CHIR-99021 significantly enhanced the cell proliferation inhibited by CDX2 overexpression. Dual-luciferase reporter and quantitative chromatin immunoprecipitation (qChIP) assays further confirmed that CDX2 transcriptionally activates glycogen synthase kinase-3β (GSK-3β) and axis inhibition protein 2 (Axin2) expression by directly binding to the promoter of GSK-3β and the upstream enhancer of Axin2. In conclusion, these results indicated that CDX2 inhibits the proliferation and tumor formation of colon cancer cells by suppressing Wnt/β-catenin signaling.
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Wang HB, Wei H, Wang JS, Li L, Chen AY, Li ZG. Down-regulated expression of LINC00518 prevents epithelial cell growth and metastasis in breast cancer through the inhibition of CDX2 methylation and the Wnt signaling pathway. Biochim Biophys Acta Mol Basis Dis 2019; 1865:708-723. [PMID: 30611858 DOI: 10.1016/j.bbadis.2019.01.003] [Citation(s) in RCA: 21] [Impact Index Per Article: 4.2] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/24/2018] [Revised: 12/07/2018] [Accepted: 01/02/2019] [Indexed: 01/02/2023]
Abstract
Breast cancer (BC)-related mortality is associated with the potential metastatic properties of the primary breast tumors. The following study was conducted with the main focus on the effect of LINC00518 on the growth and metastasis of BC epithelial cells via the Wnt signaling pathway through regulation of the methylation of CDX2 gene. Initially, differentially expressed long intergenic non-protein coding RNAs (lincRNAs) related to BC were screened out in the Cancer Genome Atlas (TCGA) database, after which we detected the LINC00518 expression and localization in BC tissues and cells. Then the CDX2 positive expression and methylation level were identified. The targeting relationship of LINC00518 and CDX2, and binding methyltransferase in the promoter region were examined. BC epithelial cell proliferation, colony formation ability, invasion, migration and apoptosis were further evaluated. The lincRNA expression data related to BC downloaded from the TCGA database revealed that there was a high expression of LINC00518 in BC, and a negative correlation between LINC00518 and CDX2. In addition, LINC00518 promotes CDX2 methylation by recruiting DNA methyltransferase through activating the Wnt signaling pathway. The down-regulation of LINC00518 inhibited proliferation, invasion, migration, and EMT of BC epithelial cells while enhancing apoptosis. The inhibitory effects of LINC00518 down-regulation was reversed by CDX2 down-regulation. In conclusion, our findings revealed that down-regulation of LINC00518 might have the ability to suppress BC progression by up-regulating CDX2 expression through the reduction of methylation and blockade of the Wnt signaling pathway, resulting in the inhibition of proliferation and promotion of apoptosis of BC epithelial cells.
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Affiliation(s)
- Hong-Bin Wang
- Department of Breast Surgery (No. 2 Sickroom), Harbin Medical University Cancer Hospital, Harbin 150081, PR China
| | - Hong Wei
- Department of In-Patient Ultrasound, The 2nd Affiliated Hospital of Harbin Medical University, Harbin 150081, PR China
| | - Jin-Song Wang
- Department of Breast Surgery (No. 2 Sickroom), Harbin Medical University Cancer Hospital, Harbin 150081, PR China
| | - Lin Li
- Department of Breast Surgery (No. 2 Sickroom), Harbin Medical University Cancer Hospital, Harbin 150081, PR China
| | - An-Yue Chen
- Department of Breast Surgery (No. 2 Sickroom), Harbin Medical University Cancer Hospital, Harbin 150081, PR China
| | - Zhi-Gao Li
- Department of Breast Surgery (No. 2 Sickroom), Harbin Medical University Cancer Hospital, Harbin 150081, PR China.
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García Robayo DA, Castañeda DA, Baena JD, Cid Arregui A, Aristizabal FA. Expresión de EDNRB y CDX2 posibles biomarcadores en progresión al cáncer cervical. REVISTA COLOMBIANA DE BIOTECNOLOGÍA 2018. [DOI: 10.15446/rev.colomb.biote.v20n1.64114] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/09/2022] Open
Abstract
De acuerdo a la historia natural del cáncer del cuello uterino, en donde las lesiones preneoplásicas de bajo y alto grado pueden presentar fenómenos de regresión o progresión, existe gran interés en la búsqueda de biomarcadores que permita predecir la evolución de las lesiones preneoplásicas del cérvix hacia la progresión o regresión de la enfermedad. Estos biomarcadores pudieran ser de origen genético, o epigenético que alteren la expresión de los genes y que pudieran estar asociados con la carcinogénesis en diferentes tipos de tejido humano. El objetivo del estudio fue analizar la expresión del mARN de los genes SFRP1, PTPRN, CDO1, EDNRB, CDX2, EPB41L3 y HAND1 en muestras negativas para lesiones intraepiteliales cervicales (n=9), muestras con lesiones intraepiteliales de bajo grado (n=10) y alto grado (n=11). Se realizó análisis de expresión de los genes mencionados mediante qRT-PCR y el análisis de los datos se realizó mediante la prueba no paramétrica de ANOVA. La diferencia estadística se determinó en valores p< 0,05. Para los genes EDNRB y CDX2 se observó disminución 66,7% en las muestras sin alteraciones histológicas cervicales, comparado con una disminución en la expresión del 50% en muestras con LIEBG y para el grupo de LIEAG del 36,4% para el gen EDNRB y del 27,3% para el gen CDX2 dando una diferencia estadísticamente significativa p= 0,02. Sugiriendo que EDNRB y CDX2 podrían ser útiles como posibles biomarcadores en la carcinogénesis cervical.
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Lienhard M, Grasse S, Rolff J, Frese S, Schirmer U, Becker M, Börno S, Timmermann B, Chavez L, Sültmann H, Leschber G, Fichtner I, Schweiger MR, Herwig R. QSEA-modelling of genome-wide DNA methylation from sequencing enrichment experiments. Nucleic Acids Res 2017; 45:e44. [PMID: 27913729 PMCID: PMC5389680 DOI: 10.1093/nar/gkw1193] [Citation(s) in RCA: 33] [Impact Index Per Article: 4.7] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/30/2016] [Accepted: 11/17/2016] [Indexed: 12/22/2022] Open
Abstract
Genome-wide enrichment of methylated DNA followed by sequencing (MeDIP-seq) offers a reasonable compromise between experimental costs and genomic coverage. However, the computational analysis of these experiments is complex, and quantification of the enrichment signals in terms of absolute levels of methylation requires specific transformation. In this work, we present QSEA, Quantitative Sequence Enrichment Analysis, a comprehensive workflow for the modelling and subsequent quantification of MeDIP-seq data. As the central part of the workflow we have developed a Bayesian statistical model that transforms the enrichment read counts to absolute levels of methylation and, thus, enhances interpretability and facilitates comparison with other methylation assays. We suggest several calibration strategies for the critical parameters of the model, either using additional data or fairly general assumptions. By comparing the results with bisulfite sequencing (BS) validation data, we show the improvement of QSEA over existing methods. Additionally, we generated a clinically relevant benchmark data set consisting of methylation enrichment experiments (MeDIP-seq), BS-based validation experiments (Methyl-seq) as well as gene expression experiments (RNA-seq) derived from non-small cell lung cancer patients, and show that the workflow retrieves well-known lung tumour methylation markers that are causative for gene expression changes, demonstrating the applicability of QSEA for clinical studies. QSEA is implemented in R and available from the Bioconductor repository 3.4 (www.bioconductor.org/packages/qsea).
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Affiliation(s)
- Matthias Lienhard
- Department of Computational Molecular Biology, Max-Planck-Institute for Molecular Genetics, Berlin 14195, Germany
| | - Sabrina Grasse
- Functional Epigenomics, University Hospital Cologne, Cologne 50937, Germany
| | - Jana Rolff
- Experimental Pharmacology & Oncology Berlin-Buch GmbH, Berlin 13125, Germany
| | - Steffen Frese
- Department of Thoracic Surgery, ELK Berlin Chest Hospital, Berlin 13125, Germany
| | - Uwe Schirmer
- Cancer Genome Research Group, German Cancer Research Center (DKFZ) and National Center for Tumor Diseases (NCT), Heidelberg 69120, Germany
| | - Michael Becker
- Experimental Pharmacology & Oncology Berlin-Buch GmbH, Berlin 13125, Germany
| | - Stefan Börno
- Sequencing Core Facility, Max-Planck-Institute for Molecular Genetics, Berlin 14195, Germany
| | - Bernd Timmermann
- Sequencing Core Facility, Max-Planck-Institute for Molecular Genetics, Berlin 14195, Germany
| | - Lukas Chavez
- Division of Pediatric Neurooncology, German Cancer Research Center (DKFZ), Heidelberg 69120, Germany
| | - Holger Sültmann
- Cancer Genome Research Group, German Cancer Research Center (DKFZ) and National Center for Tumor Diseases (NCT), Heidelberg 69120, Germany
| | - Gunda Leschber
- Department of Thoracic Surgery, ELK Berlin Chest Hospital, Berlin 13125, Germany
| | - Iduna Fichtner
- Experimental Pharmacology & Oncology Berlin-Buch GmbH, Berlin 13125, Germany
| | - Michal R Schweiger
- Functional Epigenomics, University Hospital Cologne, Cologne 50937, Germany.,Department of Vertebrate Genomics, Max-Planck-Institute for Molecular Genetics, Berlin 14195, Germany
| | - Ralf Herwig
- Department of Computational Molecular Biology, Max-Planck-Institute for Molecular Genetics, Berlin 14195, Germany
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Zfp703 Is a Wnt/β-Catenin Feedback Suppressor Targeting the β-Catenin/Tcf1 Complex. Mol Cell Biol 2016; 36:1793-802. [PMID: 27090637 DOI: 10.1128/mcb.01010-15] [Citation(s) in RCA: 13] [Impact Index Per Article: 1.6] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/09/2015] [Accepted: 04/05/2016] [Indexed: 01/29/2023] Open
Abstract
The Wnt/β-catenin signaling pathway controls embryonic development and adult stem cell maintenance through the regulation of transcription. Failure to downregulate Wnt signaling can result in embryonic malformations and cancer, highlighting the important role of negative regulators of the pathway. The Wnt pathway activates several negative feedback targets, including axin2 and Dkk1, that function at different levels of the signaling cascade; however, none have been identified that directly target active β-catenin/Tcf1 transcriptional complexes. We show that Zfp703 is a Wnt target gene that inhibits Wnt/β-catenin activity in Wnt reporter assays and in Wnt-dependent mesoderm differentiation in embryonic stem cells. Zfp703 binds directly to Tcf1 to inhibit β-catenin/Tcf1 complex formation and does so independently of the Groucho/Tle transcriptional corepressor. We propose that Zfp703 is a novel feedback suppressor of Wnt/β-catenin signaling that functions by inhibiting the association of β-catenin with Tcf1 on Wnt response elements in target gene enhancers.
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12
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Krishnadath KK, Wang KK. Molecular pathogenesis of Barrett esophagus: current evidence. Gastroenterol Clin North Am 2015; 44:233-47. [PMID: 26021192 DOI: 10.1016/j.gtc.2015.02.002] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 02/06/2023]
Abstract
This article focuses on recent findings on the molecular mechanisms involved in esophageal columnar metaplasia. Signaling pathways and their downstream targets activate specific transcription factors leading to the expression of columnar and the more specific intestinal-type of genes, which gives rise to Barrett metaplasia. Several animal models have been generated to validate and study these distinct molecular pathways but also to identify the Barrett progenitor cell. Currently, the many aspects involved in the development of esophageal metaplasia that have been elucidated can serve to develop novel molecular therapies to improve treatment or prevent metaplasia. Nevertheless, several key events are still poorly understood and require further investigation.
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Affiliation(s)
- Kausilia K Krishnadath
- Department of Gastroenterology and Hepatology, Academic Medical Center, Meibergdreef 9, Amsterdam 1105 AZ, The Netherlands.
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13
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Song R, Catchpoole DR, Kennedy PJ, Li J. Identification of lung cancer miRNA-miRNA co-regulation networks through a progressive data refining approach. J Theor Biol 2015; 380:271-9. [PMID: 26026830 DOI: 10.1016/j.jtbi.2015.05.025] [Citation(s) in RCA: 16] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/30/2014] [Revised: 04/01/2015] [Accepted: 05/18/2015] [Indexed: 02/07/2023]
Abstract
Co-regulations of miRNAs have been much less studied than the research on regulations between miRNAs and their target genes, although these two problems are equally important for understanding the entire mechanisms of complex post-transcriptional regulations. The difficulty to construct a miRNA-miRNA co-regulation network lies in how to determine reliable miRNA pairs from various resources of data related to the same disease such as expression levels, gene ontology (GO) databases, and protein-protein interactions. Here we take a novel integrative approach to the discovery of miRNA-miRNA co-regulation networks. This approach can progressively refine the various types of data and the computational analysis results. Applied to three lung cancer miRNA expression data sets of different subtypes, our method has identified a miRNA-miRNA co-regulation network and co-regulating functional modules common to lung cancer. An example of these functional modules consists of genes SMAD2, ACVR1B, ACVR2A and ACVR2B. This module is synergistically regulated by let-7a/b/c/f, is enriched in the same GO category, and has a close proximity in the protein interaction network. We also find that the co-regulation network is scale free and that lung cancer related miRNAs have more synergism in the network. According to our literature survey and database validation, many of these results are biologically meaningful for understanding the mechanism of the complex post-transcriptional regulations in lung cancer.
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Affiliation(s)
- Renhua Song
- Advanced Analytics Institute, University of Technology, Sydney, Broadway New South Wales 2007, Sydney, Australia.
| | - Daniel R Catchpoole
- The Tumour Bank, Children׳s Cancer Research Unit, The Children׳s Hospital at Westmead, Locked Bag 4001, Westmead New South Wales 2145, Sydney, Australia.
| | - Paul J Kennedy
- Advanced Analytics Institute, University of Technology, Sydney, Broadway New South Wales 2007, Sydney, Australia; Centre for Quantum Computation & Intelligent Systems, University of Technology, Sydney, Broadway New South Wales 2007, Sydney, Australia.
| | - Jinyan Li
- Advanced Analytics Institute, University of Technology, Sydney, Broadway New South Wales 2007, Sydney, Australia.
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Zhou GX, Li XY, Zhang Q, Zhao K, Zhang CP, Xue CH, Yang K, Tian ZB. Effects of the hippo signaling pathway in human gastric cancer. Asian Pac J Cancer Prev 2014; 14:5199-205. [PMID: 24175801 DOI: 10.7314/apjcp.2013.14.9.5199] [Citation(s) in RCA: 84] [Impact Index Per Article: 8.4] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/30/2023] Open
Abstract
BACKGROUND/AIM The Hippo signaling pathway is a newly discovered and conserved signaling cascade, which regulates organ size control by governing cell proliferation and apoptosis. This study aimed to investigate its effects in human gastric cancer. METHODS Tumor tissues (n=60), adjacent non-tumor tissues (n=60) and normal tissues (n=60) were obtained from the same patients with primary gastric cancer (GC). In addition, 70 samples of chronic atrophic gastritis (CAG) tissues were obtained from patients with intestinal metaplasia (IM) by endoscopic biopsy. Hippo signaling molecules, including Mst1, Lats1, YAP1, TAZ, TEAD1, Oct4 and CDX2, were determined by quantitative polymerase chain reaction (qPCR). Protein expression of Mst1, Lats1, YAP1, TEAD1 and CDX2 was assessed by immunohistochemistry and Western blotting. RESULTS Mst1, Lats1 and Oct4 mRNA expression showed an increasing tendency from GC tissues to normal gastric tissues, while the mRNA expression of YAP1, TAZ and TEAD1 was up-regulated (all P<0.01). Mst1 and Lats1 protein expression presented a similar trend with their mRNA expression. In addition, YAP1 and TEAD1 protein expression in GC was significantly higher than in the other groups (all P<0.01). CDX2 mRNA and protein expression in the CAG group were higher than in the other groups (all P<0.01). In GC, mRNA expression of Mst1, Lats1, Oct4, YAP1, TAZ, TEAD1 and CDX2 had a close correlation with lymphatic metastasis and tumor TNM stage (all P<0.01). Furthermore, protein expression of Mst1, Lats1 ,YAP1, TAZ, TEAD1 and CDX2 had a close correlation between each other (P<0.05). CONCLUSION The Hippo signaling pathway is involved in the development, progression and metastasis of human gastric cancer. Therefore, manipulation of Hippo signaling molecules may be a potential therapeutic strategy for gastric cancer.
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Affiliation(s)
- Guang-Xi Zhou
- Department of Gastroenterology, The Affiliated Hospital of Qingdao University Medical College, Qingdao, China E-mail :
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