Interactions between MAP kinase and oestrogen receptor in human breast cancer

McGlynn, L.M., Tovey, S., Bartlett, J.M.S., Doughty, J., Cooke, T.G. and Edwards, J. (2013) Interactions between MAP kinase and oestrogen receptor in human breast cancer. European Journal of Cancer, 49(6), pp. 1176-1186. (doi: 10.1016/j.ejca.2012.11.020)

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Abstract

<p>Purpose: The oestrogen receptor (ERα) may be activated in a ligand-dependent manner, via oestrogen, or in a ligand-independent manner, via signal transduction pathways. Mitogen Activated Protein Kinase (MAPK) is known to directly phosphorylate ERα at serine 118 in a ligand-independent manner. This study investigated the interaction between MAPK and ERα in breast cancer.</p> <p>Materials & methods: Immunohistochemical experiments were undertaken to determine the expression of MAPK, pMAPK and pER(ser118) in breast tumours to determine their clinical relevance. Immunofluorescent experiments were performed, on MCF-7 breast cancer cells, to monitor the phosphorylation and localisation of MAPK and ERα in response to oestrogen, heregulin and a MAPK inhibitor.</p> <p>Results: Oestrogen and Heregulin stimulated phosphorylation of ERα and its nuclear translocation, but heregulin induced this at levels much lower than those observed with oestrogen. Following stimulation with heregulin, but not oestrogen, treatment with MAPK inhibitor reduced the levels of nuclear pER(ser118). In cells treated with both oestrogen and heregulin, nuclear pER(ser118) was visible; but at levels comparable with heregulin treatment alone.</p> <p>Conclusion: This study confirms that ligand-mediated phosphorylation is associated with rapid nuclear localisation of ERα, due to oestrogen binding. ERα is phosphorylated at serine 118 in a ligand-independent manner. Preventing nuclear translocation of pMAPK reduced the levels of ligand-independent, but not ligand-dependent phosphorylation of ERα. Co-stimulation with both oestrogen and heregulin suggested that heregulin mediated signalling determines the subcellular localisation of ERα. Activation of ERα by direct phosphorylation may result in its rapid deactivation due to degradation or nuclear export.</p>

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:McGlynn, Dr Liane and Cooke, Prof Timothy and Edwards, Professor Joanne and Doughty, Miss Julie
Authors: McGlynn, L.M., Tovey, S., Bartlett, J.M.S., Doughty, J., Cooke, T.G., and Edwards, J.
College/School:College of Medical Veterinary and Life Sciences > School of Cancer Sciences
College of Medical Veterinary and Life Sciences > School of Medicine, Dentistry & Nursing
College of Medical Veterinary and Life Sciences > School of Medicine, Dentistry & Nursing > Clinical Specialities
Journal Name:European Journal of Cancer
ISSN:0959-8049

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