10 results on '"Keil, Silvia"'
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2. Comparison of hybrid clones derived from human breast epithelial cells and three different cancer cell lines regarding in vitro cancer stem/ initiating cell properties
- Author
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Fahlbusch, Sera Selina, Keil, Silvia, Epplen, Jörg T., Zänker, Kurt S., and Dittmar, Thomas
- Published
- 2020
- Full Text
- View/download PDF
3. Altered Phenotypes of Breast Epithelial × Breast Cancer Hybrids after ZEB1 Knock-Out.
- Author
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Merckens, Alexander, Sieler, Mareike, Keil, Silvia, and Dittmar, Thomas
- Subjects
BREAST ,BREAST cancer ,CANCER stem cells ,WESTERN immunoblotting ,PHENOTYPES ,CELL migration - Abstract
ZEB1 plays a pivotal role in epithelial-to-mesenchymal transition (EMT), (cancer) cell stemness and cancer therapy resistance. The M13HS tumor hybrids, which were derived from spontaneous fusion events between the M13SV1-EGFP-Neo breast epithelial cells and HS578T-Hyg breast cancer cells, express ZEB1 and exhibit prospective cancer stem cell properties. To explore a possible correlation between the ZEB1 and stemness/ EMT-related properties in M13HS tumor hybrids, ZEB1 was knocked-out by CRISPR/Cas9. Colony formation, mammosphere formation, cell migration, invasion assays, flow cytometry and Western blot analyses were performed for the characterization of ZEB1 knock-out cells. The ZEB1 knock-out in M13HS tumor cells was not correlated with the down-regulation of the EMT-related markers N-CADHERIN (CDH2) and VIMENTIN and up-regulation of miR-200c-3p. Nonetheless, both the colony formation and mammosphere formation capacities of the M13HS ZEB1 knock-out cells were markedly reduced. Interestingly, the M13HS-2 ZEB1-KO cells harbored a markedly higher fraction of ALDH1-positive cells. The Transwell/ Boyden chamber migration assay data indicated a reduced migratory activity of the M13HS ZEB1-knock-out tumor hybrids, whereas in scratch/ wound-healing assays only the M13SH-8 ZEB1-knock-out cells possessed a reduced locomotory activity. Similarly, only the M13HS-8 ZEB1-knock-out tumor hybrids showed a reduced invasion capacity. Although the ZEB1 knock-out resulted in only moderate phenotypic changes, our data support the role of ZEB1 in EMT and stemness. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. β-Heregulin impairs EGF induced PLC-γ1 signalling in human breast cancer cells.
- Author
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Rommerswinkel, Nadine, Keil, Silvia, Adawy, Alshaimaa, Hengstler, Jan G., Niggemann, Bernd, Zänker, Kurt S., and Dittmar, Thomas
- Subjects
- *
HEREGULINS , *EPIDERMAL growth factor , *PHOSPHOLIPASE C , *CANCER cell proliferation , *CELLULAR signal transduction , *BREAST cancer - Abstract
Abstract The interplay of ErbB receptor homo- and heterodimers plays a crucial role in the pathology of breast cancer since activated signal transduction cascades coordinate proliferation, survival and migration of cells. EGF and β-Heregulin are well characterised ligands known to induce ErbB homo- and heterodimerisation, which have been associated with disease progression. In the present study, we investigated the impact of both factors on the migration of MDA-NEO and MDA-HER2 human breast cancer cells. MDA-NEO cells are positive for EGFR and HER3, while MDA-HER2 cells express EGFR, HER2 and HER3. Cell migration analysis revealed that β-Heregulin potently impaired EGF induced migration in both cell lines. Western blot studies showed that both ErbB receptor and PLC-γ1 tyrosine phosphorylation levels were diminished in EGF and β-Heregulin co-treated MDA-NEO and MDA-HER2 cells, which was further correlated to a significantly impaired calcium influx. Our data indicate that EGF and HRG may interfere with each other for receptor binding and dimerisation, which ultimately has an impact on signalling outcome. Highlights • β-Heregulin inhibits the EGF induced migration of human breast cancer cells. • EGF induced PLC-γ1 activation concomitant with calcium influx is impaired by β-Heregulin. • EGF induced tyrosine phosphorylation of EGFR Y992 and HER2 Y1248 is impaired by β-Heregulin. • β-Heregulin induced tyrosine phosphorylation of HER3 Y1289 is impaired by EGF. • β-Heregulin signalling interferes with EGF signalling. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
5. Hybrid clone cells derived from human breast epithelial cells and human breast cancer cells exhibit properties of cancer stem/initiating cells.
- Author
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Gauck, Daria, Keil, Silvia, Niggemann, Bernd, Zänker, Kurt S., and Dittmar, Thomas
- Subjects
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CLONE cells , *CELL fusion , *EPITHELIAL cells , *BREAST cancer , *CANCER cells , *CANCER stem cells , *CELL migration - Abstract
Background: The biological phenomenon of cell fusion has been associated with cancer progression since it was determined that normal cell × tumor cell fusion-derived hybrid cells could exhibit novel properties, such as enhanced metastatogenic capacity or increased drug resistance, and even as a mechanism that could give rise to cancer stem/initiating cells (CS/ICs). CS/ICs have been proposed as cancer cells that exhibit stem cell properties, including the ability to (re)initiate tumor growth.Methods: Five M13HS hybrid clone cells, which originated from spontaneous cell fusion events between M13SV1-EGFP-Neo human breast epithelial cells and HS578T-Hyg human breast cancer cells, and their parental cells were analyzed for expression of stemness and EMT-related marker proteins by Western blot analysis and confocal laser scanning microscopy. The frequency of ALDH1-positive cells was determined by flow cytometry using AldeRed fluorescent dye. Concurrently, the cells' colony forming capabilities as well as the cells' abilities to form mammospheres were investigated. The migratory activity of the cells was analyzed using a 3D collagen matrix migration assay.Results: M13HS hybrid clone cells co-expressed SOX9, SLUG, CK8 and CK14, which were differently expressed in parental cells. A variation in the ALDH1-positive putative stem cell population was observed among the five hybrids ranging from 1.44% (M13HS-7) to 13.68% (M13HS-2). In comparison to the parental cells, all five hybrid clone cells possessed increased but also unique colony formation and mammosphere formation capabilities. M13HS-4 hybrid clone cells exhibited the highest colony formation capacity and second highest mammosphere formation capacity of all hybrids, whereby the mean diameter of the mammospheres was comparable to the parental cells. In contrast, the largest mammospheres originated from the M13HS-2 hybrid clone cells, whereas these cells' mammosphere formation capacity was comparable to the parental breast cancer cells. All M13HS hybrid clones exhibited a mesenchymal phenotype and, with the exception of one hybrid clone, responded to EGF with an increased migratory activity.Conclusion: Fusion of human breast epithelial cells and human breast cancer cells can give rise to hybrid clone cells that possess certain CS/IC properties, suggesting that cell fusion might be a mechanism underlying how tumor cells exhibiting a CS/IC phenotype could originate. [ABSTRACT FROM AUTHOR]- Published
- 2017
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6. Lipopolysaccharide (LPS) Promotes Apoptosis in Human Breast Epithelial × Breast Cancer Hybrids, but Not in Parental Cells.
- Author
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Fried, Sabrina, Tosun, Songuel, Troost, Gabriele, Keil, Silvia, Zaenker, Kurt S., and Dittmar, Thomas
- Subjects
BREAST cancer diagnosis ,CANCER cells ,APOPTOSIS ,LIPOPOLYSACCHARIDES ,EPITHELIAL cells ,TOLL-like receptors - Abstract
Toll-like receptors (TLRs) belong to the group of pathogen recognition receptors known to play a crucial role in the innate immune system. In cancer, TLR expression is still debated controversially due to contradictory results reporting that both induction of apoptosis as well as tumor progression could depend on TLR signaling, whereby recent data rather indicate a pro-tumorigenic effect. The biological phenomenon of cell fusion has been associated with cancer progression due to findings revealing that fusion-derived hybrid cells could exhibit properties like an increased metastatogenic capacity and an increased drug resistance. Thus, M13MDA435 hybrid cell lines, which derived from spontaneous fusion events between human M13SV1-EGFP-Neo breast epithelial cells and human MDA-MB-435-Hyg breast cancer cells, were investigated. Cultivation of cells in the presence of the TLR4 ligand LPS potently induced apoptosis in all hybrid clones, but not in parental cells, which was most likely attributed to differential kinetics of the TLR4 signal transduction cascade. Activation of this pathway concomitant with NF-κB nuclear translocation and TNF-α expression was solely observed in hybrid cells. However, induction of LPS mediated apoptosis was not TNF-α dependent since TNF-α neutralization was not correlated to a decreased amount of dead cells. In addition to TNF-α, LPS also caused IFN-β expression in hybrid clones 1 and 3. Interestingly, hybrid clones differ in the mode of LPS induced apoptosis. While neutralization of IFN-β was sufficient to impair the LPS induced apoptosis in M13MDA435-1 and -3 hybrids, the amount of apoptotic M13MDA435-2 and -4 hybrid cells remained unchanged in the presence of neutralizing IFN-β antibodies. In summary, the fusion of non-LPS susceptible parental human breast epithelial cells and human breast cancer cells gave rise to LPS susceptible hybrid cells, which is in view with the cell fusion hypothesis that hybrid cells could exhibit novel properties. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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7. Fusion of CCL21 Non-Migratory Active Breast Epithelial and Breast Cancer Cells Give Rise to CCL21 Migratory Active Tumor Hybrid Cell Lines
- Author
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Berndt, Benjamin, Haverkampf, Sonja, Reith, Georg, Keil, Silvia, Niggemann, Bernd, Zänker, Kurt S., and Dittmar, Thomas
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BREAST cancer treatment ,CANCER cells ,CELL lines ,CELL fusion ,CANCER invasiveness ,DRUG resistance ,EPITHELIAL cells ,FLOW cytometry - Abstract
The biological phenomenon of cell fusion has been linked to tumor progression because several data provided evidence that fusion of tumor cells and normal cells gave rise to hybrid cell lines exhibiting novel properties, such as increased metastatogenic capacity and an enhanced drug resistance. Here we investigated M13HS hybrid cell lines, derived from spontaneous fusion events between M13SV1-EGFP-Neo breast epithelial cells exhibiting stem cell characteristics and HS578T-Hyg breast cancer cells, concerning CCL21/CCR7 signaling. Western Blot analysis showed that all cell lines varied in their CCR7 expression levels as well as differed in the induction and kinetics of CCR7 specific signal transduction cascades. Flow cytometry-based calcium measurements revealed that a CCL21 induced calcium influx was solely detected in M13HS hybrid cell lines. Cell migration demonstrated that only M13HS hybrid cell lines, but not parental derivatives, responded to CCL21 stimulation with an increased migratory activity. Knockdown of CCR7 expression by siRNA completely abrogated the CCL21 induced migration of hybrid cell lines indicating the necessity of CCL21/CCR7 signaling. Because the CCL21/CCR7 axis has been linked to metastatic spreading of breast cancer to lymph nodes we conclude from our data that cell fusion could be a mechanism explaining the origin of metastatic cancer (hybrid) cells. [ABSTRACT FROM AUTHOR]
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- 2013
- Full Text
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8. Cell Fusion-Mediated Tissue Regeneration as an Inducer of Polyploidy and Aneuploidy.
- Author
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Dörnen, Jessica, Sieler, Mareike, Weiler, Julian, Keil, Silvia, and Dittmar, Thomas
- Subjects
CELL fusion ,ANEUPLOIDY ,PHENOMENOLOGICAL biology ,POLYPLOIDY ,STEM cells ,CELL division - Abstract
The biological phenomenon of cell fusion plays a crucial role in several physiological processes, including wound healing and tissue regeneration. Here, it is assumed that bone marrow-derived stem cells (BMSCs) could adopt the specific properties of a different organ by cell fusion, thereby restoring organ function. Cell fusion first results in the production of bi- or multinucleated hybrid cells, which either remain as heterokaryons or undergo ploidy reduction/heterokaryon-to-synkaryon transition (HST), thereby giving rise to mononucleated daughter cells. This process is characterized by a merging of the chromosomes from the previously discrete nuclei and their subsequent random segregation into daughter cells. Due to extra centrosomes concomitant with multipolar spindles, the ploidy reduction/HST could also be associated with chromosome missegregation and, hence, induction of aneuploidy, genomic instability, and even putative chromothripsis. However, while the majority of such hybrids die or become senescent, aneuploidy and genomic instability appear to be tolerated in hepatocytes, possibly for stress-related adaption processes. Likewise, cell fusion-induced aneuploidy and genomic instability could also lead to a malignant conversion of hybrid cells. This can occur during tissue regeneration mediated by BMSC fusion in chronically inflamed tissue, which is a cell fusion-friendly environment, but is also enriched for mutagenic reactive oxygen and nitrogen species. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
9. Cell fusion: the origin of cancer stem cells?
- Author
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Schwitalla, Sarah, Keil, Silvia, Zänker, Kurt S., and Dittmar, Thomas
- Subjects
CELL fusion ,HOMEOSTASIS ,STEM cells ,TUMORS ,CANCER cells ,CANCER treatment ,CELL lines ,CELL cycle - Abstract
Cell fusion is a cell-biological phenomenon, which was originally described as an event of development and homeostasis. Moreover, recent discoveries give rise to the theory that fusion events between stem cells and tumor cells could act as malignant and crucial originators in cancer stem cell (CSC) generation, besides other theories such as CSCs deriving from tissue stem cells that have accumulated genetic aberrations or CSCs deriving from differentiated progenitor cells that have regained self- renewing capacity. By now CSCs are known as cancer-initiating cells with characteristic features of stem cells, such as self-renewing, differentiation, regeneration of tissues at low cell numbers and drug resistance. This rare population of cancer-initiating cells attracts attention as a target in cancer therapies and, therefore, there is an urgent need for further investigation on CSCs is present. After 24 h co-cultivation of M13SV1 enhanced green fluorescent protein (EGFP)-neo breast stem cells and invasive HS578T-Hyg breast cancer cells under selective conditions, cell clones that emerged from spontaneous fusion events were isolated and cultivated separately. Short tandem repeat analysis of hybrid cells showed an overlap of the parental alleles, indicating that hybrid cells have been originated from real cell fusion events. Despite some varieties concerning the data of the further hybrid cell characterization due to different genetic profile among them, one can detect clear tendencies of similarity between all hybrid cell lines compared with their parental cell lines. XTT-proliferation assays, for example, show a significantly higher proliferation rate of the hybrid cell lines compared with their parental cell lines. Dependent on the hybrid cell line a 5-10-times higher proliferation rate could be detected in comparison with the breast stem cell line M13SV1 EGFP-neo, whereas, in contrast to the breast cancer cell line HS578T Hyg, the proliferation shows an up to four-times higher rate. Moreover, expression pattern analysis by real-time PCR data revealed interesting results in multiple up- and down-regulation of cancer and drug metabolism genes compared with the HS578T cell line and the M13SV1 cell line, for example, upregulation of cell cycle regulators as p16 and p53 in all hybrids, drug resistance transporters as ABCC6, ABCB1 and major vault protein (MVP) in all hybrid cell lines as well as upregulation of androgen receptor in three of four hybrid cell lines, which stands in a reciprocal relationship to downregulation of estrogen receptor in some poor prognosis breast cancers, probably indicating that fusion might cause a switch to an estrogen-independent tumor growth. The real-time PCR data have been confirmed by Western blot analysis. On the basis of spontaneous fusion between M13SV1 breast stem cells and invasive HS578T breast cancer cells we could give a promising insight into characterization of fusion cells as a possible model for CSCs. [ABSTRACT FROM AUTHOR]
- Published
- 2007
10. Analysis of cell migration within a three-dimensional collagen matrix.
- Author
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Rommerswinkel N, Niggemann B, Keil S, Zänker KS, and Dittmar T
- Subjects
- Breast Neoplasms pathology, Cell Line, Tumor, Female, Humans, Cell Migration Assays instrumentation, Cell Migration Assays methods, Cell Movement physiology, Collagen chemistry
- Abstract
The ability to migrate is a hallmark of various cell types and plays a crucial role in several physiological processes, including embryonic development, wound healing, and immune responses. However, cell migration is also a key mechanism in cancer enabling these cancer cells to detach from the primary tumor to start metastatic spreading. Within the past years various cell migration assays have been developed to analyze the migratory behavior of different cell types. Because the locomotory behavior of cells markedly differs between a two-dimensional (2D) and three-dimensional (3D) environment it can be assumed that the analysis of the migration of cells that are embedded within a 3D environment would yield in more significant cell migration data. The advantage of the described 3D collagen matrix migration assay is that cells are embedded within a physiological 3D network of collagen fibers representing the major component of the extracellular matrix. Due to time-lapse video microscopy real cell migration is measured allowing the determination of several migration parameters as well as their alterations in response to pro-migratory factors or inhibitors. Various cell types could be analyzed using this technique, including lymphocytes/leukocytes, stem cells, and tumor cells. Likewise, also cell clusters or spheroids could be embedded within the collagen matrix concomitant with analysis of the emigration of single cells from the cell cluster/ spheroid into the collagen lattice. We conclude that the 3D collagen matrix migration assay is a versatile method to analyze the migration of cells within a physiological-like 3D environment.
- Published
- 2014
- Full Text
- View/download PDF
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