7 results on '"Giehl, K"'
Search Results
2. Specific effects of Lef-1 splice variants on the regulation of gene expression in pancreatic cancer cells.
- Author
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Jesse, S., Giehl, K., König, A., and Menke, A.
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CANCER cells , *CELL migration , *CELL proliferation , *CELL growth , *CELL communication - Abstract
The lymphoid enhancer factor (Lef-1) belongs to the nuclear transducers of canonical Wnt-signalling in embryogenesis and cancer. Lef-1 acts, in cooperation with betacatenin, as a context-dependent transcriptional activator or repressor thereby influencing multiple cellular functions such as proliferation, differentiation and migration. Here we report an increased Lef-1 expression in human pancreatic cancer, which correlates with advanced tumour stages. As demonstrated by RT-PCR analysis, pancreatic carcinoma exhibit two different transcripts present in pancreatic carcinomas. One transcript was identified as the full length Lef-1 (Lef-1 FL), whereas the second, shorter transcript, lacked exon VI (Lef-1 exon VI) compared to the published sequence. Comparative analysis of these two Lef-1 variants revealed different cellular effects after transient expression in pancreatic carcinoma cells. Forced expression of Lef-1 exon VI in pancreatic carcinoma cells inhibited E-cadherin expression and resulted in reduced cellular aggregation and increased cell migration compared to cells expressing full length Lef-1. Expression of Lef-1 FL, but not the newly identified Lef-1 exon VI, induced expression of the cell cycle regulating proteins cmyc and cyclin D1 and resulted in enhanced cell proliferation. Thus, our findings implicate that expression of alternatively spliced isoforms of Lef-1 are involved in the determination of proliferative or migratory characteristics of pancreatic carcinoma cells. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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3. K-Ras(V12) differentially affects the three Akt isoforms in lung and pancreatic carcinoma cells and upregulates E-cadherin and NCAM via Akt3.
- Author
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Geißert R, Lammert A, Wirth S, Hönig R, Lohfink D, Unger M, Pek D, Schlüter K, Scheftschik T, Smit DJ, Jücker M, Menke A, and Giehl K
- Subjects
- Humans, Proto-Oncogene Proteins c-akt metabolism, Neural Cell Adhesion Molecules, Cadherins, Protein Isoforms, Phosphatidylinositol 3-Kinases metabolism, Lung metabolism, Lung Neoplasms genetics, Adenocarcinoma, Pancreatic Neoplasms pathology
- Abstract
K-Ras is the most frequently mutated Ras variant in pancreatic, colon and non-small cell lung adenocarcinoma. Activating mutations in K-Ras result in increased amounts of active Ras-GTP and subsequently a hyperactivation of effector proteins and downstream signaling pathways. Here, we demonstrate that oncogenic K-Ras(V12) regulates tumor cell migration by activating the phosphatidylinositol 3-kinases (PI3-K)/Akt pathway and induces the expression of E-cadherin and neural cell adhesion molecule (NCAM) by upregulation of Akt3. In vitro interaction and co-precipitation assays identified PI3-Kα as a bona fide effector of active K-Ras4B but not of H-Ras or N-Ras, resulting in enhanced Akt phosphorylation. Moreover, K-Ras(V12)-induced PI3-K/Akt activation enhanced migration in all analyzed cell lines. Interestingly, Western blot analyses with Akt isoform-specific antibodies as well as qPCR studies revealed, that the amount and the activity of Akt3 was markedly increased whereas the amount of Akt1 and Akt2 was downregulated in EGFP-K-Ras(V12)-expressing cell clones. To investigate the functional role of each Akt isoform and a possible crosstalk of the isoforms in more detail, each isoform was stably depleted in PANC-1 pancreatic and H23 lung carcinoma cells. Akt3, the least expressed Akt isoform in most cell lines, is especially upregulated and active in Akt2-depleted cells. Since expression of EGFP-K-Ras(V12) reduced E-cadherin-mediated cell-cell adhesion by induction of polysialylated NCAM, Akt3 was analyzed as regulator of E-cadherin and NCAM. Western blot analyses revealed pronounced reduction of E-cadherin and NCAM in the Akt3-kd cells, whereas Akt1 and Akt2 depletion upregulated E-cadherin, especially in H23 lung carcinoma cells. In summary, we identified oncogenic K-Ras4B as a key regulator of PI3-Kα-Akt signaling and Akt3 as a crucial regulator of K-Ras4B-induced modulation of E-cadherin and NCAM expression and localization., (© 2024. The Author(s).)
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- 2024
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4. HIF-1α activation results in actin cytoskeleton reorganization and modulation of Rac-1 signaling in endothelial cells.
- Author
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Weidemann A, Breyer J, Rehm M, Eckardt KU, Daniel C, Cicha I, Giehl K, and Goppelt-Struebe M
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- Actin Cytoskeleton ultrastructure, Actins metabolism, Amino Acids, Dicarboxylic pharmacology, Cell Movement, Endothelial Cells physiology, Endothelial Cells ultrastructure, Human Umbilical Vein Endothelial Cells, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Microvessels physiology, Microvessels ultrastructure, Signal Transduction, Spheroids, Cellular cytology, Spheroids, Cellular physiology, p21-Activated Kinases metabolism, rac1 GTP-Binding Protein genetics, rho-Associated Kinases metabolism, Actin Cytoskeleton metabolism, Endothelial Cells drug effects, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Microvessels drug effects, Prolyl-Hydroxylase Inhibitors pharmacology, rac1 GTP-Binding Protein metabolism
- Abstract
Background: Hypoxia is a major driving force in vascularization and vascular remodeling. Pharmacological inhibition of prolyl hydroxylases (PHDs) leads to an oxygen-independent and long-lasting activation of hypoxia-inducible factors (HIFs). Whereas effects of HIF-stabilization on transcriptional responses have been thoroughly investigated in endothelial cells, the molecular details of cytoskeletal changes elicited by PHD-inhibition remain largely unknown. To investigate this important aspect of PHD-inhibition, we used a spheroid-on-matrix cell culture model., Results: Microvascular endothelial cells (glEND.2) were organized into spheroids. Migration of cells from the spheroids was quantified and analyzed by immunocytochemistry. The PHD inhibitor dimethyloxalyl glycine (DMOG) induced F-actin stress fiber formation in migrating cells, but only weakly affected microvascular endothelial cells firmly attached in a monolayer. Compared to control spheroids, the residual spheroids were larger upon PHD inhibition and contained more cells with tight VE-cadherin positive cell-cell contacts. Morphological alterations were dependent on stabilization of HIF-1α and not HIF-2α as shown in cells with stable knockdown of HIF-α isoforms. DMOG-treated endothelial cells exhibited a reduction of immunoreactive Rac-1 at the migrating front, concomitant with a diminished Rac-1 activity, whereas total Rac-1 protein remained unchanged. Two chemically distinct Rac-1 inhibitors mimicked the effects of DMOG in terms of F-actin fiber formation and orientation, as well as stabilization of residual spheroids. Furthermore, phosphorylation of p21-activated kinase PAK downstream of Rac-1 was reduced by DMOG in a HIF-1α-dependent manner. Stabilization of cell-cell contacts associated with decreased Rac-1 activity was also confirmed in human umbilical vein endothelial cells., Conclusions: Our data demonstrates that PHD inhibition induces HIF-1α-dependent cytoskeletal remodeling in endothelial cells, which is mediated essentially by a reduction in Rac-1 signaling.
- Published
- 2013
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5. Signal transduction, receptors, mediators and genes: younger than ever - the 13th meeting of the Signal Transduction Society focused on aging and immunology.
- Author
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Entschladen F, Altschmied J, Baumgrass R, Behrmann I, Giehl K, Hermanns H, Huber O, Kieser A, Klotz LO, Kubatzky KF, Hass R, Janssen O, and Friedrich K
- Abstract
The 13th meeting of the Signal Transduction Society was held in Weimar, from October 28 to 30, 2009. Special focus of the 2009 conference was "Aging and Senescence", which was co-organized by the SFB 728 "Environmentally-Induced Aging Processes" of the University of Düsseldorf and the study group 'Signal Transduction' of the German Society for Cell Biology (DGZ). In addition, several other areas of signal transduction research were covered and supported by different consortia associated with the Signal Transduction Society including the long-term associated study groups of the German Society for Immunology and the Society for Biochemistry and Molecular Biology, and for instance the SFB/Transregio 52 "Transcriptional Programming of Individual T Cell Subsets" located in Würzburg, Mainz and Berlin. The different research areas that were introduced by outstanding keynote speakers attracted more than 250 scientists, showing the timeliness and relevance of the interdisciplinary concept and exchange of knowledge during the three days of the scientific program. This report gives an overview of the presentations of the conference.
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- 2010
- Full Text
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6. Rac1 activation inhibits E-cadherin-mediated adherens junctions via binding to IQGAP1 in pancreatic carcinoma cells.
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Hage B, Meinel K, Baum I, Giehl K, and Menke A
- Abstract
Background: Monomeric GTPases of the Rho family control a variety of cellular functions including actin cytoskeleton organisation, cell migration and cell adhesion. Defects in these regulatory processes are involved in tumour progression and metastasis. The development of metastatic carcinoma is accompanied by deregulation of adherens junctions, which are composed of E-cadherin/beta- and alpha-catenin complexes., Results: Here, we show that the activity of the monomeric GTPase Rac1 contributes to inhibition of E-cadherin-mediated cell-cell adhesion in pancreatic carcinoma cells. Stable expression of constitutively active Rac1(V12) reduced the amount of E-cadherin on protein level in PANC-1 pancreatic carcinoma cells, whereas expression of dominant negative Rac1(N17) resulted in an increased amount of E-cadherin. Extraction of proteins associated with the actin cytoskeleton as well as coimmunoprecipitation analyses demonstrated markedly decreased amounts of E-cadherin/catenin complexes in Rac1(V12)-expressing cells, but increased amounts of functional E-cadherin/catenin complexes in cells expressing Rac1(N17). Cell aggregation and migration assays revealed, that cells containing less E-cadherin due to expression of Rac1(V12), exhibited reduced cell-cell adhesion and increased cell motility. The Rac/Cdc42 effector protein IQGAP1 has been implicated in regulating cell-cell adhesion. Coimmunoprecipitation studies showed a decrease in the association between IQGAP1 and beta-catenin in Rac1(V12)-expressing PANC-1 cells and an association of IQGAP1 with Rac1(V12). Elevated association of IQGAP1 with the E-cadherin adhesion complex via beta-catenin correlated with increased intercellular adhesion of PANC-1 cells., Conclusion: These results indicate that active Rac1 destabilises E-cadherin-mediated cell-cell adhesion in pancreatic carcinoma cells by interacting with IQGAP1 which is associated with a disassembly of E-cadherin-mediated adherens junctions. Inhibition of Rac1 activity induced increased E-cadherin-mediated cellular adhesion.
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- 2009
- Full Text
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7. Signal transduction in the footsteps of goethe and schiller.
- Author
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Friedrich K, Lindquist JA, Entschladen F, Serfling E, Thiel G, Kieser A, Giehl K, Ehrhardt C, Feller SM, Ullrich O, Schaper F, Janssen O, and Hass R
- Abstract
The historical town of Weimar in Thuringia, the "green heart of Germany" was the sphere of Goethe and Schiller, the two most famous representatives of German literature's classic era. Not yet entirely as influential as those two cultural icons, the Signal Transduction Society (STS) has nevertheless in the last decade established within the walls of Weimar an annual interdisciplinary Meeting on "Signal Transduction - Receptors, Mediators and Genes", which is well recognized as a most attractive opportunity to exchange results and ideas in the field.The 12th STS Meeting was held from October 28 to 31 and provided a state-of-the-art overview of various areas of signal transduction research in which progress is fast and discussion lively. This report is intended to share with the readers of CCS some highlights of the Meeting Workshops devoted to specific aspects of signal transduction.
- Published
- 2009
- Full Text
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