c‐erbB‐2/EGFR as dominant heterodimerization partners determine a motogenic phenotype in human breast cancer cells

ABSTRACTSeparate mechanisms for oncogenesis and metastasis have been postulated. We show here that prolonged and invasive cell migration, a key mechanism in cancer metastasis, is linked to c‐erbB‐2 signaling. Cell lines with c‐erbB‐2 and EGFR expression and transphosphorylation activity display a hi...

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Veröffentlicht in:	The FASEB journal 1999-11, Vol.13 (14), p.1939-1949
Hauptverfasser:	Brandt, Burkhard H., Roetger, Antje, Dittmar, Thomas, Nikolai, Gerd, Seeling, Matthes, Merschjann, Anja, Nofer, Jerzy‐Roch, Dehmer‐Möller, Gunda, Junker, Ralf, Assmann, Gerd, Zaenker, Kurt S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Breast Neoplasms - pathology c-erbB-2 gene Cell Division Cell Line Dimerization Endothelium, Vascular - metabolism Endothelium, Vascular - pathology epidermal growth factor Epidermal Growth Factor - pharmacology ErbB Receptors - chemistry ErbB Receptors - physiology Extracellular Matrix - metabolism Female gelsolin Gelsolin - metabolism Humans HUVEC LKey Words: F‐actin Neoplasm Invasiveness Phenotype Phosphorylation Receptor, ErbB-2 - chemistry Receptor, ErbB-2 - physiology
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container_end_page	1949
container_issue	14
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container_title	The FASEB journal
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creator	Brandt, Burkhard H. Roetger, Antje Dittmar, Thomas Nikolai, Gerd Seeling, Matthes Merschjann, Anja Nofer, Jerzy‐Roch Dehmer‐Möller, Gunda Junker, Ralf Assmann, Gerd Zaenker, Kurt S.
description	ABSTRACTSeparate mechanisms for oncogenesis and metastasis have been postulated. We show here that prolonged and invasive cell migration, a key mechanism in cancer metastasis, is linked to c‐erbB‐2 signaling. Cell lines with c‐erbB‐2 and EGFR expression and transphosphorylation activity display a high transendothelial invasiveness in an endothelial‐extra‐cellular matrix model mimicking a capillary vessel wall in vitro. Tyrosine‐phosphorylated c‐erbB‐2 receptors and EGFR are localized predominantly in areas of the cell with high membrane extension activity. On the molecular level, there is a subtle cross talk between the transmembrane signaling molecule c‐erbB‐2 and the actin cytoskeleton at multiple levels, including the generation of the second messenger PIP2 and the mobilization of the actin‐regulatory protein gelsolin. Our data strongly suggest that c‐erbB‐2, especially in a heterodimer with EGFR, is closely involved in signaling pathways, inducing alterations in cell morphology that are required for a human breast cancer cell to become motile and conceivably metastatic.—Brandt, B. H., Roetger, A., Dittmar, T., Nikolai, G., Seeling, M., Merschjann, A., Nofer, J.‐R., Dehmer‐Möller, G., Junker, R., Assmann, G., Zaenker. K. S. c‐erbB‐2/EGFR as dominant heterodimerization partners determine a motogenic phenotype in human breast cancer cells. FASEB J. 13, 1939–1949 (1999)
doi_str_mv	10.1096/fasebj.13.14.1939
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Our data strongly suggest that c‐erbB‐2, especially in a heterodimer with EGFR, is closely involved in signaling pathways, inducing alterations in cell morphology that are required for a human breast cancer cell to become motile and conceivably metastatic.—Brandt, B. H., Roetger, A., Dittmar, T., Nikolai, G., Seeling, M., Merschjann, A., Nofer, J.‐R., Dehmer‐Möller, G., Junker, R., Assmann, G., Zaenker. K. S. c‐erbB‐2/EGFR as dominant heterodimerization partners determine a motogenic phenotype in human breast cancer cells. 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We show here that prolonged and invasive cell migration, a key mechanism in cancer metastasis, is linked to c‐erbB‐2 signaling. Cell lines with c‐erbB‐2 and EGFR expression and transphosphorylation activity display a high transendothelial invasiveness in an endothelial‐extra‐cellular matrix model mimicking a capillary vessel wall in vitro. Tyrosine‐phosphorylated c‐erbB‐2 receptors and EGFR are localized predominantly in areas of the cell with high membrane extension activity. On the molecular level, there is a subtle cross talk between the transmembrane signaling molecule c‐erbB‐2 and the actin cytoskeleton at multiple levels, including the generation of the second messenger PIP2 and the mobilization of the actin‐regulatory protein gelsolin. 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We show here that prolonged and invasive cell migration, a key mechanism in cancer metastasis, is linked to c‐erbB‐2 signaling. Cell lines with c‐erbB‐2 and EGFR expression and transphosphorylation activity display a high transendothelial invasiveness in an endothelial‐extra‐cellular matrix model mimicking a capillary vessel wall in vitro. Tyrosine‐phosphorylated c‐erbB‐2 receptors and EGFR are localized predominantly in areas of the cell with high membrane extension activity. On the molecular level, there is a subtle cross talk between the transmembrane signaling molecule c‐erbB‐2 and the actin cytoskeleton at multiple levels, including the generation of the second messenger PIP2 and the mobilization of the actin‐regulatory protein gelsolin. Our data strongly suggest that c‐erbB‐2, especially in a heterodimer with EGFR, is closely involved in signaling pathways, inducing alterations in cell morphology that are required for a human breast cancer cell to become motile and conceivably metastatic.—Brandt, B. H., Roetger, A., Dittmar, T., Nikolai, G., Seeling, M., Merschjann, A., Nofer, J.‐R., Dehmer‐Möller, G., Junker, R., Assmann, G., Zaenker. K. S. c‐erbB‐2/EGFR as dominant heterodimerization partners determine a motogenic phenotype in human breast cancer cells. FASEB J. 13, 1939–1949 (1999)</abstract><cop>United States</cop><pub>Federation of American Societies for Experimental Biology</pub><pmid>10544177</pmid><doi>10.1096/fasebj.13.14.1939</doi><tpages>11</tpages></addata></record>
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subjects	Breast Neoplasms - pathology c-erbB-2 gene Cell Division Cell Line Dimerization Endothelium, Vascular - metabolism Endothelium, Vascular - pathology epidermal growth factor Epidermal Growth Factor - pharmacology ErbB Receptors - chemistry ErbB Receptors - physiology Extracellular Matrix - metabolism Female gelsolin Gelsolin - metabolism Humans HUVEC LKey Words: F‐actin Neoplasm Invasiveness Phenotype Phosphorylation Receptor, ErbB-2 - chemistry Receptor, ErbB-2 - physiology
title	c‐erbB‐2/EGFR as dominant heterodimerization partners determine a motogenic phenotype in human breast cancer cells
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