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2. Nanoscale topography and poroelastic properties of model tissue breast gland basement membranes

Author

Fabris, Gloria, Lucantonio, Alessandro, Hampe, Nico, Noetzel, Erik, Hoffmann, Bernd, DeSimone, Antonio, and Merkel, Rudolf

Subjects
Physics - Biological Physics, Condensed Matter - Soft Condensed Matter, Quantitative Biology - Tissues and Organs
Abstract

Basement membranes (BMs) are thin layers of condensed extracellular matrix proteins serving as permeability filters, cellular anchoring sites, and barriers against cancer cell invasion. It is believed that their biomechanical properties play a crucial role in determining cellular behavior and response, especially in mechanically active tissues like breast glands. In spite of this, so far relatively little attention has been dedicated to their analysis due to the difficulty of isolating and handling such thin layers of material. Here, we isolated basement membranes derived from MCF10A spheroids - 3D breast glands model systems mimicking in-vitro the most relevant phenotypic characteristics of human breast lobules - and characterized them by atomic force microscopy (AFM), enhanced resolution confocal microscopy (LSM), and scanning electron microscopy (SEM). By performing AFM height-clamp experiments, we obtained force relaxation curves that offered the first biomechanical data on isolated breast gland BMs. Based on LSM and SEM imaging data, we modeled the system as a polymer network immersed in liquid and described it as a poroelastic material. Finite Element (FE) simulations matching the experimental force relaxation curves allowed for the first quantification of the bulk and shear moduli of the membrane, as well as its water permeability. These results represent a first step towards a deeper understanding of the mechanism of tensional homeostasis regulating mammary gland activity, as well as its disruption during processes of membrane breaching and metastatic invasion.

Published
2018
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4. Dual role of GRHL3 in bladder carcinogenesis depending on histological subtypes

Author

Lammert, Franziska C., primary, Pannhausen, Julia, additional, Noetzel, Erik, additional, Friedland, Florian, additional, Wirtz, Julia, additional, Herfs, Yannick, additional, Leypold, Sophie, additional, Gan, Lin, additional, Weiskirchen, Ralf, additional, Schnitzler, Tician, additional, Knüchel, Ruth, additional, Maurer, Jochen, additional, Jonigk, Danny D., additional, Rose, Michael, additional, and Gaisa, Nadine T., additional

Published
2024
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6. Expressing Optogenetic Actuators Fused to N‐terminal Mucin Motifs Delivers Targets to Specific Subcellular Compartments in Polarized Cells.

Author

Wang, Jiali, Platz‐Baudin, Eric, Noetzel, Erik, Offenhäusser, Andreas, and Maybeck, Vanessa

Subjects
ACTUATORS, MUCINS, TANDEM repeats, EPITHELIAL cells, THYROID hormone receptors, OPTOGENETICS
Abstract

Optogenetics is a powerful approach in neuroscience research. However, other tissues of the body may benefit from controlled ion currents and neuroscience may benefit from more precise optogenetic expression. The present work constructs three subcellularly‐targeted optogenetic actuators based on the channelrhodopsin ChR2‐XXL, utilizing 5, 10, or 15 tandem repeats (TR) from mucin as N‐terminal targeting motifs and evaluates expression in several polarized and non‐polarized cell types. The modified channelrhodopsin maintains its electrophysiological properties, which can be used to produce continuous membrane depolarization, despite the expected size of the repeats. This work then shows that these actuators are subcellularly localized in polarized cells. In polarized epithelial cells, all three actuators localize to just the lateral membrane. The TR‐tagged constructs also express subcellularly in cortical neurons, where TR5‐ChR2XXL and TR10‐ChR2XXL mainly target the somatodendrites. Moreover, the transfection efficiencies are shown to be dependent on cell type and tandem repeat length. Overall, this work verifies that the targeting motifs from epithelial cells can be used to localize optogenetic actuators in both epithelia and neurons, opening epithelia processes to optogenetic manipulation and providing new possibilities to target optogenetic tools. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Cell Force-Driven Basement Membrane Disruption Fuels EGF- and Stiffness-Induced Invasive Cell Dissemination from Benign Breast Gland Acini

Author

Gaiko-Shcherbak, Aljona, Eschenbruch, Julian, Kronenberg, Nils M., Teske, Michael, Wolters, Benjamin, Springer, Ronald, Gather, Malte C., Merkel, Rudolf, Hoffmann, Bernd, Noetzel, Erik, EPSRC, University of St Andrews. School of Physics and Astronomy, University of St Andrews. Sir James Mackenzie Institute for Early Diagnosis, University of St Andrews. Centre for Biophotonics, and University of St Andrews. Biomedical Sciences Research Complex

Subjects
breast cancer invasion, mechanically driven cancer progression, Basement membrane, QH301 Biology, Acinar Cells, Article, neoplasm invasion, Basement Membrane, lcsh:Chemistry, Mechanobiology, RC0254, QH301, filopodia, Mechanosensing, SDG 3 - Good Health and Well-being, Neoplasm invasion, Cell Line, Tumor, Neoplasms, Cell force, cell force, Humans, Neoplasm Invasiveness, Breast, Pseudopodia, Mammary Glands, Human, lcsh:QH301-705.5, QC, Breast cancer invasion, Mechanical Phenomena, Filopodia, Epidermal Growth Factor, RC0254 Neoplasms. Tumors. Oncology (including Cancer), mechanosensory transduction, DAS, mechanobiology, Mechanosensory transduction, Extracellular Matrix, ErbB Receptors, QC Physics, lcsh:Biology (General), lcsh:QD1-999, ddc:540, Mechanically driven cancer progression, mechanosensing, Female
Abstract

Funded by the Deutsche Forschungsgesellschaft (DFG, German Research Foundation)-363055819/GRK2415, through SPP1782 within the projects H02384/2 and ME1458/8 and Engineering and Physical Sciences Research Council (EP/P030017/1) and the Alexander von Humboldt Stiftung (Humboldt-Professorship). Local basement membrane (BM) disruption marks the initial step of breast cancer invasion. The activation mechanisms of force-driven BM-weakening remain elusive. We studied the mechanical response of MCF10A-derived human breast cell acini with BMs of tuneable maturation to physical and soluble tumour-like extracellular matrix (ECM) cues. Traction force microscopy (TFM) and elastic resonator interference stress microscopy (ERISM) were used to quantify pro-invasive BM stress and protrusive forces. Substrate stiffening and mechanically impaired BM scaffolds induced the invasive transition of benign acini synergistically. Robust BM scaffolds attenuated this invasive response. Additional oncogenic EGFR activation compromised the BMs’ barrier function, fuelling invasion speed and incidence. Mechanistically, EGFR-PI3-Kinase downstream signalling modulated both MMP- and force-driven BM-weakening processes. We show that breast acini form non-proteolytic and BM-piercing filopodia for continuous matrix mechanosensation, which significantly push and pull on the BM and ECM under pro-invasive conditions. Invasion-triggered acini further shear and compress their BM by contractility-based stresses that were significantly increased (3.7-fold) compared to non-invasive conditions. Overall, the highest amplitudes of protrusive and contractile forces accompanied the highest invasiveness. This work provides a mechanistic concept for tumour ECM-induced mechanically misbalanced breast glands fuelling force-driven BM disruption. Finally, this could facilitate early cell dissemination from pre-invasive lesions to metastasize eventually. Publisher PDF

Published
2021
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14. Overexpression of SERBP1 (Plasminogen activator inhibitor 1 RNA binding protein) in human breast cancer is correlated with favourable prognosis

Author

Serce Nuran Bektas, Boesl Andreas, Klaman Irina, von Serényi Sonja, Noetzel Erik, Press Michael F, Dimmler Arno, Hartmann Arndt, Sehouli Jalid, Knuechel Ruth, Beckmann Matthias W, Fasching Peter A, and Dahl Edgar

Subjects
SERBP1, uPA/PAI-1, Gene expression, Breast cancer, Prognostic marker, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Plasminogen activator inhibitor 1 (PAI-1) overexpression is an important prognostic and predictive biomarker in human breast cancer. SERBP1, a protein that is supposed to regulate the stability of PAI-1 mRNA, may play a role in gynaecological cancers as well, since upregulation of SERBP1 was described in ovarian cancer recently. This is the first study to present a systematic characterisation of SERBP1 expression in human breast cancer and normal breast tissue at both the mRNA and the protein level. Methods Using semiquantitative realtime PCR we analysed SERBP1 expression in different normal human tissues (n = 25), and in matched pairs of normal (n = 7) and cancerous breast tissues (n = 7). SERBP1 protein expression was analysed in two independent cohorts on tissue microarrays (TMAs), an initial evaluation set, consisting of 193 breast carcinomas and 48 normal breast tissues, and a second large validation set, consisting of 605 breast carcinomas. In addition, a collection of benign (n = 2) and malignant (n = 6) mammary cell lines as well as breast carcinoma lysates (n = 16) were investigated for SERBP1 expression by Western blot analysis. Furthermore, applying non-radioisotopic in situ hybridisation a subset of normal (n = 10) and cancerous (n = 10) breast tissue specimens from the initial TMA were analysed for SERBP1 mRNA expression. Results SERBP1 is not differentially expressed in breast carcinoma compared to normal breast tissue, both at the RNA and protein level. However, recurrence-free survival analysis showed a significant correlation (P = 0.008) between abundant SERBP1 expression in breast carcinoma and favourable prognosis. Interestingly, overall survival analysis also displayed a tendency (P = 0.09) towards favourable prognosis when SERBP1 was overexpressed in breast cancer. Conclusions The RNA-binding protein SERBP1 is abundantly expressed in human breast cancer and may represent a novel breast tumour marker with prognostic significance. Its potential involvement in the plasminogen activator protease cascade warrants further investigation.

Published
2012
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15. Dual role of macrophage migration inhibitory factor (MIF) in human breast cancer

Author

Hartmann Arndt, Lennartz Birgitt, Lue Hongqi, Schütz Anke K, Bektas Nuran, Noetzel Erik, Verjans Eva, Dahl Edgar, and Bernhagen Jürgen

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Macrophage migration inhibitory factor (MIF) is a pleiotropic cytokine and mediator of acute and chronic inflammatory diseases. MIF is overexpressed in various tumours and has been suggested as a molecular link between chronic inflammation and cancer. MIF overexpression is observed in breast cancer but its causal role in the development of this tumour entity is unclear. Methods MIF levels in breast cancer cell lines were determined by ELISA and Western blot. CD74 was measured by Western blot, fluorescence microscopy and flow cytometry. Cell proliferation was studied by BrdU incorporation, cell adhesion by Matrigel adhesion assay, and cell invasion by migration assay through Matrigel-coated filters using the Transwell system. MIF expression in primary human breast cancers was measured by tissue microarray and a semi-quantitative immunoreactivity score (IRS) and comparison with histopathological parameters and patient outcome data. Results MIF was abundantly expressed in the non-invasive breast cancer cell lines MDA-MB-468 and ZR-75-1, but not in invasive MDA-MB-231 cells, which in turn expressed higher levels of the MIF-receptor CD74. Stimulation with exogenous MIF led to a dramatic upregulation of MIF secretion (50-fold) in MDA-MB-231 cells. Autocrine MIF promoted tumour cell proliferation, as indicated by blockade of MIF or CD74 in MDA-MB-231 and MDA-MB-468, and MDA-MB-231 invasiveness was enhanced by exogenous MIF. We correlated the expression of MIF with histopathological parameters and patient outcome data, using a tissue microarray of 175 primary invasive breast cancers and 35 normal control tissues. MIF was upregulated in breast cancer versus normal tissue (median IRS = 8 versus 6). MIF expression showed positive correlations with progesterone (p = 0.006) and estrogen (p = 0.028) receptor expression, markers of a favourable prognosis and a negative correlation to tumour size (p = 0.007). In line with these data, disease-specific overall (OS) as well as recurrence-free (RFS) survival was significantly improved in breast cancer patients with abundant cytosolic MIF expression compared to MIF low expressers (5-year OS = 67% versus 50%, p = 0.0019; 5-year RFS = 52% versus 36%, p = 0.0327). Conclusion We conclude that intracellular expression of MIF in breast cancer cells is beneficial, whereas extracellular MIF may play a pro-oncogenic role in promoting breast cancer cell-stroma interactions.

Published
2009
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16. Promoter hypermethylation of the SFRP2 gene is a high-frequent alteration and tumor-specific epigenetic marker in human breast cancer

Author

Knüchel Ruth, Hartmann Arndt, Jost Edgar, Bektas Nuran, Noetzel Erik, Veeck Jürgen, and Dahl Edgar

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background We have previously reported that expression of the Wnt antagonist genes SFRP1 and SFRP5 is frequently silenced by promoter hypermethylation in breast cancer. SFRP2 is a further Wnt inhibitor whose expression was recently found being downregulated in various malignancies. Here we investigated whether SFRP2 is also implicated in human breast cancer, and if so whether SFRP2 promoter methylation might serve as a potential tumor biomarker. Methods We analyzed SFRP2 mRNA expression and SFRP2 promoter methylation in 10 breast cell lines, 199 primary breast carcinomas, 20 matched normal breast tissues and 17 cancer-unrelated normal breast tissues using RT-PCR, realtime PCR, methylation-specific PCR and Pyrosequencing, respectively. SFRP2 protein expression was assessed by immunohistochemistry on a tissue microarray. Proliferation assays after transfection with an SFRP2 expression vector were performed with mammary MCF10A cells. Statistical evaluations were accomplished with SPSS 14.0 software. Results Of the cancerous breast cell lines, 7/8 (88%) lacked SFRP2 mRNA expression due to SFRP2 promoter methylation (P < 0.001). SFRP2 expression was substantially restored in most breast cell lines after treatment with 5-aza-2'-deoxycytidine and trichostatin A. In primary breast carcinomas SFRP2 protein expression was strongly reduced in 93 of 125 specimens (74%). SFRP2 promoter methylation was detected in 165/199 primary carcinomas (83%) whereas all cancer-related and unrelated normal breast tissues were not affected by SFRP2 methylation. SFRP2 methylation was not associated with clinicopathological factors or clinical patient outcome. However, loss of SFRP2 protein expression showed a weak association with unfavorable patient overall survival (P = 0.071). Forced expression of SFRP2 in mammary MCF10A cells substantially inhibited proliferation rates (P = 0.045). Conclusion The SFRP2 gene is a high-frequent target of epigenetic inactivation in human breast cancer. Its methylation leads to abrogation of SFRP2 expression, conferring a growth advantage to epithelial mammary cells. This altogether supports a tumor suppressive function of SFRP2. Although clinical patient outcome was not associated with SFRP2 methylation, the high frequency of this epimutation and its putative specificity to neoplastic cells may qualify SFRP2 promoter methylation as a potential candidate screening marker helping to improve early breast cancer detection.

Published
2008
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17. Promoter methylation-associated loss of ID4 expression is a marker of tumour recurrence in human breast cancer

Author

Hartmann Arndt, Horn Felicitas, Galm Oliver, Niederacher Dieter, Veeck Jürgen, Noetzel Erik, Knüchel Ruth, and Dahl Edgar

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Inhibitor of DNA binding/Inhibitor of differentiation 4 (ID4) is a critical factor for cell proliferation and differentiation in normal vertebrate development. ID4 has regulative functions for differentiation and growth of the developing brain. The role of ID1, ID2 and ID3 are expected to be oncogenic due to their overexpression in pancreatic cancer and colorectal adenocarcinomas, respectively. Aside from these findings, loss of ID3 expression was demonstrated in ovarian cancer. The aim of the present study was to reveal the factual role of ID4 in carcinogenesis in more detail, since its role for the pathogenesis of human breast cancer has been discussed controversially, assigning both oncogenic and tumour suppressive functions. Methods ID4 promoter methylation, ID4 mRNA expression and ID4 protein expression were analysed in primary human breast cancer specimens using methylation-specific PCR (MSP) (n=170), semiquantitative realtime RT-PCR (n=46) and immunhistochemistry (n=3), respectively. In order to demonstrate a functional association of ID4 promoter methylation with its gene silencing, we performed DNA demethylation analysis with four human breast cell lines using MSP and semiquantitative realtime RT-PCR. In addition, we performed correlations of ID4 promoter methylation with ID4 mRNA and ID4 protein expression in matched samples of breast tumour and corresponding normal tissue. We carried out statistical analyses in order to find correlations between ID4 promoter methylation and clinicopathological parameters. Results Frequent ID4 promoter methylation was observed in primary breast cancer samples (69%, 117/170). We found a tight correlation (PID4 promoter methylation and loss of ID4 expression in primary breast cancer 3 specimens. Demethylating treatment with breast cancer cell lines was associated with clear ID4 mRNA re-expression. Tumours with ID4 promoter methylation showed distinct loss of ID4 expression on both transcription and protein level. Interestingly, ID4 promoter methylation was a factor for unfavourable recurrence-free survival (P=0.036) and increased risk for lymph node metastasis (P=0.030). Conclusion ID4 is indeed a novel tumour suppressor gene in normal human breast tissue and is epigenetically silenced during cancer development, indicating increased risk for tumour relapse. Thus, ID4 methylation status could serve as a prognostic biomarker in human breast cancer.

Published
2008
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19. Epigenetic loss of putative tumor suppressorSFRP3correlates with poor prognosis of lung adenocarcinoma patients

Author

Schlensog, Martin, primary, Magnus, Lara, additional, Heide, Timon, additional, Eschenbruch, Julian, additional, Steib, Florian, additional, Tator, Maximilian, additional, Kloten, Vera, additional, Rose, Michael, additional, Noetzel, Erik, additional, Gaisa, Nadine T., additional, Knüchel, Ruth, additional, and Dahl, Edgar, additional

Published
2018
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20. Additional file 1: of ITIH5 mediates epigenetic reprogramming of breast cancer cells

Author

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

Subjects
skin and connective tissue diseases
Abstract

Cell plasticity of ITIH5-expressing MDA-MB-231 single-cell clones. This figure shows morphological characteristics of independent MDA-MB-231 single-cell clones using phase-contrast microscopy. (DOCX 109Â kb)

Published
2017
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21. ITIH5 mediates epigenetic reprogramming of breast cancer cells

Author

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

Published
2017
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22. Epigenetic loss of putative tumor suppressor SFRP3 correlates with poor prognosis of lung adenocarcinoma patients.

Author

Schlensog, Martin, Magnus, Lara, Heide, Timon, Eschenbruch, Julian, Steib, Florian, Tator, Maximilian, Kloten, Vera, Rose, Michael, Noetzel, Erik, Gaisa, Nadine T., Knüchel, Ruth, and Dahl, Edgar

Abstract

Secreted frizzled related protein 3 (SFRP3) contains a cysteine-rich domain (CRD) that shares homology with Frizzled CRD and regulates WNT signaling. Independent studies showed epigenetic silencing of SFRP3 in melanoma and hepatocellular carcinoma. Moreover, a tumor suppressive function of SFRP3 was shown in androgen-independent prostate and gastric cancer cells. The current study is the first to investigate SFRP3 expression and its potential clinical impact on non-small cell lung carcinoma (NSCLC). WNT signaling components present on NSCLC subtypes were preliminary elucidated by expression data of The Cancer Genome Atlas (TCGA). We identified a distinct expression signature of relevant WNT signaling components that differ between adenocarcinoma (LUAD) and squamous cell carcinoma (LUSC). Of interest, canonical WNT signaling is predominant in LUAD samples and non-canonical WNT signaling is predominant in LUSC. In line, high SFRP3 expression resulted in beneficial clinical outcome for LUAD but not for LUSC patients. Furthermore, SFRP3 mRNA expression was significantly decreased in NSCLC tissue compared to normal lung samples. TCGA data verified the reduction of SFRP3 in LUAD and LUSC patients. Moreover, DNA hypermethylation of SFRP3 was evaluated in the TCGA methylation dataset resulting in epigenetic inactivation of SFRP3 expression in LUAD, but not in LUSC, and was validated by pyrosequencing of our NSCLC tissue cohort and in vitro demethylation experiments. Immunohistochemistry confirmed SFRP3 protein downregulation in primary NSCLC and indicated abundant expression in normal lung tissue. Two adenocarcinoma gain-of-function models were used to analyze the functional impact of SFRP3 on cell proliferation and regulation of CyclinD1 expression in vitro. Our results indicate that SFRP3 acts as a novel putative tumor suppressor gene in adenocarcinoma of the lung possibly regulating canonical WNT signaling. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Identifizierung von Synemin (SYNM) als einen neuen DNA-Methylierungsmarker und Charakterisierung des putativen Onkogens Karyopherin Alpha 2 (KPNA2) für das humane Mammakarzinom

Author

Noetzel, Erik Alexander, Dahl, Edgar, and Baumgartner, Werner

Subjects
DNA Methylierungsmarker, Maligne Transformation, KPNA2, Proliferation, Zellmigration, Apoptosis, recurrence free survival, nuclear transport protein, Onkogen, Zelllinie, Rezidiv-freies Überleben, Biowissenschaften, Biologie, Rezidiv, karyopherin alpha 2, ddc:570, Tumorsuppressor-Gen, DNA methylation marker, Brustkrebs, SYNM, Adhäsion, synemin, skin and connective tissue diseases, Kerntransporter
Abstract

The understanding of tumor biological consequences of aberrantly expressed genes and the identification of novel DNA methylation markers are fundamental prerequisites for the development of future cancer therapies as well as for the improvement of prognosis and prediction assessment of breast cancer patients. This work describes the identification of a novel DNA methylation marker (Synemin) and the functional characterization of a putative oncoprotein (KPNA2) for human breast cancer. The intermediate filament Synemin (SYNM) is crucial for the linkage of the extracellular matrix and the intermediate filament network. Altered expression of intermediate filaments is an important mechanism for carcinogenesis and tumor invasion. In this study the role of SYNM for human breast cancer was investigated for the first time. Initially performed RNA expression analysis demonstrated a highly significant SYNM loss in invasive breast tumors and abundant expression in normal breast tissues. Immunohistochemical SYNM protein expression analysis revealed a myoepithelial expression pattern in normal breast tissues. SYNM protein was drastically reduced in 70% and completely lost in 56% of all investigated invasive breast cancers. Promoter analysis revealed a CpG island in a SYNM promoter sequence relevant for transcription. Promoter methylation analysis (MSP-technique) revealed a tumor specific SYNM promoter methylation in 26.7% of invasive tumors (n=195). Pyrosequencing technique revealed CpG methylation in the entire promoter sequence analyzed. We found a highly significant association between SYNM promoter methylation and SYNM expression loss in invasive breast tumors and human cancer cell lines. This association was confirmed functionally, since the in vitro demethylation of cancer cell lines by 5'-aza-2'-deoxycytidine resulted in significant SYNM re-expression. Therefore, tumor-specific SYNM promoter methylation was confirmed as a cardinal mechanism for SYNM gene silencing in breast cancer. Patients with SYNM methylation had a significantly shortened disease-free survival, poor tumor differentiation and advanced metastatic disease. SYNM methylation was identified as independent prognostic marker for a 2.9-fold increased risk of tumor recurrence. Interestingly, nodal-positive breast cancer patients without SYNM methylation had an unexpectedly good prognosis. SYNM methylation could therefore serve as a new prognostic methylation marker for breast cancer and improve the risk assessment of high-risk patients. The intermediate filament SYNM could also have a tumor suppressive effect with respect to its biological function in breast myoepithelial cells. Dysfunction of the nuclear transport machinery at the level of soluble import and export receptors (karyopherins) is associated with tumorigenesis and tumor progression. Retrospective studies already proposed the tumor-specific overexpression of the nuclear import factor karyopherin alpha 2 (KPNA2) as a new prognostic marker for human breast cancer. On this basis a detailed, functional characterization of the phenotypic effects of the differential KPNA2 expression on breast cancer cells was performed. Prerequisite for this was the establishment of KPNA2 overexpressing cell lines. An inducible Tet-On KPNA2 expression system was stably integrated into malignant MCF7 cells (MCF7/TR/KPNA2). Benign non- transformed MCF10A cells were transiently transfected with a constitutive KPNA2 expression vector (MCF10A/KPNA2). MCF7 wild type cells (WT) had a stronger KPNA2 expression (x 5.1) than MCF10A WT cells and proliferated faster (+16%). KPNA2 overexpression in MCF7/TR/KPNA2 clones further increased cell proliferation (+15%). MCF10A WT cells showed a highly significant higher cell-matrix adhesion of 36% compared to MCF7 WT cells. MCF10A/KPNA2 cells showed a drastic reduction of adhesion (-21%), which was similar to that of malignant MCF7 WT cells. In contrast, migration was significantly increased in MCF10A/KPNA2 cells (+68.9%) and MCF7/TR/KPNA2 clones (+25.5%). MCF10A/KPNA2 cells almost achieved the migration ability of malignant MCF7 WT cells. In Consequence, the demonstrated effects on proliferation, adhesion and migration led to an increased colony spreading in MCF10A/KPNA2 (+190%) and MCF7/TR/KPNA2 (+41%) tumor cells. The phenotypic effects described here may facilitate the invasion and metastatic potential of breast tumor cells. Thus, the oncogenic value of KPNA2 could be confirmed in vitro. One possible mechanism could be the KPNA2 forced nuclear translocation of RAC-1 and p65. These oncogenes are proven KPNA2 interaction partners and crucial for cell cycle control, adhesion and migration.

Published
2011

25. Epigenetic loss of putative tumor suppressor SFRP3correlates with poor prognosis of lung adenocarcinoma patients

Author

Schlensog, Martin, Magnus, Lara, Heide, Timon, Eschenbruch, Julian, Steib, Florian, Tator, Maximilian, Kloten, Vera, Rose, Michael, Noetzel, Erik, Gaisa, Nadine T., Knüchel, Ruth, and Dahl, Edgar

Abstract

ABSTRACTSecreted frizzled related protein 3 (SFRP3) contains a cysteine-rich domain (CRD) that shares homology with Frizzled CRD and regulates WNT signaling. Independent studies showed epigenetic silencing of SFRP3in melanoma and hepatocellular carcinoma. Moreover, a tumor suppressive function of SFRP3 was shown in androgen-independent prostate and gastric cancer cells. The current study is the first to investigate SFRP3expression and its potential clinical impact on non-small cell lung carcinoma (NSCLC). WNT signaling components present on NSCLC subtypes were preliminary elucidated by expression data of The Cancer Genome Atlas (TCGA). We identified a distinct expression signature of relevant WNT signaling components that differ between adenocarcinoma (LUAD) and squamous cell carcinoma (LUSC). Of interest, canonical WNT signaling is predominant in LUAD samples and non-canonical WNT signaling is predominant in LUSC. In line, high SFRP3 expression resulted in beneficial clinical outcome for LUAD but not for LUSC patients. Furthermore, SFRP3mRNA expression was significantly decreased in NSCLC tissue compared to normal lung samples. TCGA data verified the reduction of SFRP3in LUAD and LUSC patients. Moreover, DNA hypermethylation of SFRP3was evaluated in the TCGA methylation dataset resulting in epigenetic inactivation of SFRP3expression in LUAD, but not in LUSC, and was validated by pyrosequencing of our NSCLC tissue cohort and in vitrodemethylation experiments. Immunohistochemistry confirmed SFRP3 protein downregulation in primary NSCLC and indicated abundant expression in normal lung tissue. Two adenocarcinoma gain-of-function models were used to analyze the functional impact of SFRP3 on cell proliferation and regulation of CyclinD1expression in vitro. Our results indicate that SFRP3acts as a novel putative tumor suppressor gene in adenocarcinoma of the lung possibly regulating canonical WNT signaling.

Published
2018
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29. The ubiquitin-like molecule interferon-stimulated gene 15 (ISG15) is a potential prognostic marker in human breast cancer

Author

Bektas, Nuran, primary, Noetzel, Erik, additional, Veeck, Jürgen, additional, Press, Michael F, additional, Kristiansen, Glen, additional, Naami, Amjad, additional, Hartmann, Arndt, additional, Dimmler, Arno, additional, Beckmann, Matthias W, additional, Knüchel, Ruth, additional, Fasching, Peter A, additional, and Dahl, Edgar, additional

Published
2008
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31. Promoter methylation-associated loss of ID4 expression is a marker of tumour recurrence in human breast cancer.

Author

Noetzel, Erik, Veeck, Jürgen, Niederacher, Dieter, Galm, Oliver, Horn, Felicitas, Hartmann, Arndt, Knüchel, Ruth, and Dahl, Edgar

Subjects
*METHYLATION, *DNA-binding proteins, *BREAST cancer, *CANCER relapse, *CELL proliferation, *CARCINOGENESIS
Abstract

Background: Inhibitor of DNA binding/Inhibitor of differentiation 4 (ID4) is a critical factor for cell proliferation and differentiation in normal vertebrate development. ID4 has regulative functions for differentiation and growth of the developing brain. The role of ID1, ID2 and ID3 are expected to be oncogenic due to their overexpression in pancreatic cancer and colorectal adenocarcinomas, respectively. Aside from these findings, loss of ID3 expression was demonstrated in ovarian cancer. The aim of the present study was to reveal the factual role of ID4 in carcinogenesis in more detail, since its role for the pathogenesis of human breast cancer has been discussed controversially, assigning both oncogenic and tumour suppressive functions. Methods: ID4 promoter methylation, ID4 mRNA expression and ID4 protein expression were analysed in primary human breast cancer specimens using methylation-specific PCR (MSP) (n=170), semiquantitative realtime RT-PCR (n=46) and immunhistochemistry (n=3), respectively. In order to demonstrate a functional association of ID4 promoter methylation with its gene silencing, we performed DNA demethylation analysis with four human breast cell lines using MSP and semiquantitative realtime RT-PCR. In addition, we performed correlations of ID4 promoter methylation with ID4 mRNA and ID4 protein expression in matched samples of breast tumour and corresponding normal tissue. We carried out statistical analyses in order to find correlations between ID4 promoter methylation and clinicopathological parameters. Results: Frequent ID4 promoter methylation was observed in primary breast cancer samples (69%, 117/170). We found a tight correlation (P<0.0001) between ID4 promoter methylation and loss of ID4 expression in primary breast cancer 3 specimens. Demethylating treatment with breast cancer cell lines was associated with clear ID4 mRNA re-expression. Tumours with ID4 promoter methylation showed distinct loss of ID4 expression on both transcription and protein level. Interestingly, ID4 promoter methylation was a factor for unfavourable recurrence-free survival (P=0.036) and increased risk for lymph node metastasis (P=0.030). Conclusion: ID4 is indeed a novel tumour suppressor gene in normal human breast tissue and is epigenetically silenced during cancer development, indicating increased risk for tumour relapse. Thus, ID4 methylation status could serve as a prognostic biomarker in human breast cancer. [ABSTRACT FROM AUTHOR]

Published
2008

32. 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

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