Your search keyword '"Kloten, Vera"' showing total 5 results

1. Die Identifizierung und Validierung neuer potentieller Blut-basierter Früherkennungs-Biomarker sowie die funktionelle Charakterisierung von ITIH5 im humanen Mammakarzinom

Author

Kloten, Vera and Dahl, Edgar

Subjects

DNA-Methylierung, Mammakarzinom, breast cancer, Tumorsuppressor-Gen, Brustkrebs, Medizin, Tumorsuppressorgen, ddc:610, tumor suppressor gene, DNA-methylation

Abstract

Mammography has become standard of care in breast cancer screening but the limitations are well-recognized resulting in an ongoing discussion about the screening necessity. Regarding these limitations of mammography in population-based screening the validation of novel minimally-invasive screening tests that could complement to mammography is an important research topic of modern medicine. There is a growing confidence that the next generation of screening tests will be based on molecular biomarkers present in bodily fluids. Determination of promoter methylation of tumor suppressor genes in the circulating free DNA (cfDNA) of serum is a rapidly growing research field in cancer detection, indicating high specificity and sensitivity of these biomarkers. Based on the largest sample collection analyzed for serum based cfDNA methylation biomarkers so far, promoter methylation of the DKK3-ITIH5 gene combination was highly significant compared to initially six analyzed candidate genes. In an independent validation set the combined ITIH5- and DKK3-methylation achieved 40% sensitivity with a high specificity of 94% (AUC: 0,673, P

Published

2014

2. ITIH5 mediates epigenetic reprogramming of breast cancer cells.

Author

Rose, Michael, Kloten, Vera, Noetzel, Erik, Gola, Lukas, Ehling, Josef, Heide, Timon, Meurer, Steffen K., Gaiko-Shcherbak, Aljona, Sechi, Antonio S., Huth, Sebastian, Weiskirchen, Ralf, Klaas, Oliver, Antonopoulos, Wiebke, Qiong Lin, Wagner, Wolfgang, Veeck, Jürgen, Gremse, Felix, Steitz, Julia, Knüchel, Ruth, and Dahl, Edgar

Subjects

*EXTRACELLULAR matrix, *EXTRACELLULAR space, *CANCER cells, *BREAST cancer, *CANCER stem cells, *PHYSIOLOGY, *PHYSICAL therapy

Abstract

Background: Extracellular matrix (ECM) is known to maintain epithelial integrity. In carcinogenesis ECM degradation triggers metastasis by controlling migration and differentiation including cancer stem cell (CSC) characteristics. The ECM-modulator inter-α-trypsin inhibitor heavy chain family member five (ITIH5) was recently identified as tumor suppressor potentially involved in impairing breast cancer progression but molecular mechanisms underlying its function are still elusive. Methods: ITIH5 expression was analyzed using the public TCGA portal. ITIH5-overexpressing single-cell clones were established based on T47D and MDA-MB-231 cell lines. Colony formation, growth, apoptosis, migration, matrix adhesion, traction force analyses and polarization of tumor cells were studied in vitro. Tumor-initiating characteristics were analyzed by generating a metastasis mouse model. To identify ITIH5-affected pathways we utilized genome wide gene expression and DNA methylation profiles. RNA-interference targeting the ITIH5-downstream regulated gene DAPK1 was used to confirm functional involvement. Results: ITIH5 loss was pronounced in breast cancer subtypes with unfavorable prognosis like basal-type tumors. Functionally, cell and colony formation was impaired after ITIH5 re-expression in both cell lines. In a metastasis mouse model, ITIH5 expressing MDA-MB-231 cells almost completely failed to initiate lung metastases. In these metastatic cells ITIH5 modulated cell-matrix adhesion dynamics and altered biomechanical cues. The profile of integrin receptors was shifted towards β1-integrin accompanied by decreased Rac1 and increased RhoA activity in ITIH5-expressing clones while cell polarization and single-cell migration was impaired. Instead ITIH5 expression triggered the formation of epithelial-like cell clusters that underwent an epigenetic reprogramming. 214 promoter regions potentially marked with either H3K4 and /or H3K27 methylation showed a hyper- or hypomethylated DNA configuration due to ITIH5 expression finally leading to re-expression of the tumor suppressor DAPK1. In turn, RNAi-mediated knockdown of DAPK1 in ITIH5-expressing MDA-MB-231 single-cell clones clearly restored cell motility. Conclusions: Our results provide evidence that ITIH5 triggers a reprogramming of breast cancer cells with known stem CSC properties towards an epithelial-like phenotype through global epigenetic changes effecting known tumor suppressor genes like DAPK1. Therewith, ITIH5 may represent an ECM modulator in epithelial breast tissue mediating suppression of tumor initiating cancer cell characteristics which are thought being responsible for the metastasis of breast cancer. [ABSTRACT FROM AUTHOR]

Published

2017

3. Abundant NDRG2 Expression Is Associated with Aggressiveness and Unfavorable Patients’ Outcome in Basal-Like Breast Cancer.

Author

Kloten, Vera, Schlensog, Martin, Eschenbruch, Julian, Gasthaus, Janina, Tiedemann, Janina, Mijnes, Jolein, Heide, Timon, Braunschweig, Till, Knüchel, Ruth, and Dahl, Edgar

Subjects

*AGGRESSION (Psychology), *BREAST cancer, *TUMOR suppressor genes, *MESSENGER RNA, *CPG nucleotides, *GENETIC overexpression

Abstract

NDRG2, a member of the N-myc downstream-regulated gene family, is thought to be a putative tumor suppressor gene with promising clinical impact in breast cancer. Since breast cancer comprises heterogeneous intrinsic subtypes with distinct clinical outcomes we investigated the pivotal role of NDRG2 in basal-type breast cancers. Based on subtype classified tumor (n = 45) and adjacent normal tissues (n = 17) we examined NDRG2 mRNA expression and CpG-hypermethylation, whose significance was further validated by independent data sets from The Cancer Genome Atlas (TCGA). In addition, NDRG2 protein expression was evaluated immunohistochemically using a tissue micro array (TMA, n = 211). In vitro, we investigated phenotypic effects caused by NDRG2 silencing in the basal A-like HCC1806 as well as NDRG2 over-expression in basal A-like BT20 compared to luminal-type MCF7 breast cancer cells. Our tissue collections demonstrated an overall low NDRG2 mRNA expression in breast cancer subtypes compared to normal breast tissue in line with an increased CpG-hypermethylation in breast cancer tissue. Independent TCGA data sets verified a significant (P<0.001) expression loss of NDRG2 in breast tumors. Of interest, basal-like tumors more frequently retained abundant NDRG2 expression concordant with a lower CpG-hypermethylation. Unexpectedly, basal-like breast cancer revealed an association of NDRG2 expression with unfavorable patients’ outcome. In line with this observation, in vitro experiments demonstrated reduced proliferation and migration rates (~20%) in HCC1806 cells following NDRG2 silencing. In contrast, NDRG2 over-expressing luminal-type MCF7 cells demonstrated a 26% decreased proliferation rate. Until now, this is the first study investigating the putative role of NDRG2 in depth in basal-type breast cancer. Our data indicate that the described putative tumor suppressive function of NDRG2 may be confined to luminal- and basal B-type breast cancers. [ABSTRACT FROM AUTHOR]

Published

2016

4. Promoter hypermethylation of the tumor-suppressor genes ITIH5, DKK3, and RASSF1A as novel biomarkers for blood-based breast cancer screening.

Author

Kloten, Vera, Becker, Birte, Winner, Kirsten, Schrauder, Michael G., Fasching, Peter A., Anzeneder, Tobias, Veeck, Jürgen, Hartmann, Arndt, Knüchel, Ruth, and Dahl, Edgar

Subjects

BREAST cancer, EARLY detection of cancer, METHYLATION, TUMOR suppressor genes, IMMUNOSPECIFICITY, DIAGNOSIS

Abstract

Introduction: For early detection of breast cancer, the development of robust blood-based biomarkers that accurately reflect the host tumor is mandatory. We investigated DNA methylation in circulating free DNA (cfDNA) from blood of breast cancer patients and matched controls to establish a biomarker panel potentially useful for early detection of breast cancer. Methods: We examined promoter methylation of seven putative tumor-suppressor genes (SFRP1, SFRP2, SFRP5, ITIH5, WIF1, DKK3, and RASSF1A) in cfDNA extracted from serum. Clinical performance was first determined in a test set (n = 261 sera). In an independent validation set (n = 343 sera), we validated the most promising genes for further use in early breast cancer detection. Sera from 59 benign breast disease and 58 colon cancer patients were included for additional specificity testing. Results: Based on the test set, we determined ITIH5 and DKK3 promoter methylation as candidate biomarkers with the best sensitivity and specificity. In both the test and validation set combined, ITIH5 and DKK3 methylation achieved 41% sensitivity with a specificity of 93% and 100% in healthy and benign disease controls, respectively. Combination of these genes with RASSF1A methylation increased the sensitivity to 67% with a specificity of 69% and 82% in healthy controls and benign disease controls, respectively. Conclusions: Tumor-specific methylation of the three-gene panel (ITIH5, DKK3, and RASSF1A) might be a valuable biomarker for the early detection of breast cancer. [ABSTRACT FROM AUTHOR]

Published

2013

5. ITIH5 mediates epigenetic reprogramming of breast cancer cells

Author

Rose, Michael, Kloten, Vera, Weiskirchen, Ralf, Klaas, Oliver, Antonopoulos, Wiebke, Lin, Qiong, Wagner, Wolfgang, Veeck, Jürgen, Gremse, Felix, Steitz, Julia, Knüchel-Clarke, Ruth, Dahl, Edgar, Noetzel, Erik Alexander, Gola, Lukas, Ehling, Josef Ludger Anton, Heide, Timon, Meurer, Steffen K., Gaiko-Shcherbak, Aljona, Sechi, Antonio S., and Huth, Sebastian

Subjects

Cancer Research, Lung Neoplasms, Proteinase Inhibitory Proteins, Secretory, Breast Neoplasms, Epigenesis, Genetic, Mice, Breast cancer, Cell Line, Tumor, Animals, Humans, ITIH5, ddc:610, DAPK1, Cancer stem cells, Research, Extracellular matrix, DNA Methylation, Prognosis, Survival Analysis, Gene Expression Regulation, Neoplastic, Death-Associated Protein Kinases, Epigenetic reprogramming, Oncology, Molecular Medicine, Female, Neoplasm Transplantation

Abstract

Molecular cancer 16(1), 44 (2017). doi:10.1186/s12943-017-0610-2, Published by Biomed Central, London