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Genevieve V Dall Peter MacCallum Cancer Centre, Melbourne, Australia

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Samuel Hawthorne Department of Anatomy and Developmental Biology, Monash University, Melbourne, Australia

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Yashar Seyed-Razavi Department of Anatomy and Developmental Biology, Monash University, Melbourne, Australia

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Jessica Vieusseux Peter MacCallum Cancer Centre, Melbourne, Australia

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Wanfu Wu Department of Biology and Biochemistry, University of Houston, Houston, Texas, USA

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Jan-Ake Gustafsson Department of Biology and Biochemistry, University of Houston, Houston, Texas, USA

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David Byrne Department of Pathology, Peter MacCallum Cancer Centre, Melbourne, Australia

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Leigh Murphy University of Manitoba, Winnipeg, Canada

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Gail P Risbridger Peter MacCallum Cancer Centre, Melbourne, Australia
Department of Anatomy and Developmental Biology, Monash University, Melbourne, Australia

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Kara L Britt Peter MacCallum Cancer Centre, Melbourne, Australia
The Sir Peter MacCallum, Department of Oncology, University of Melbourne, Melbourne, Australia

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Estrogen induces proliferation of breast epithelial cells and is responsible for breast development at puberty. This tightly regulated control is lost in estrogen-receptor-positive (ER+) breast cancers, which comprise over 70% of all breast cancers. Currently, breast cancer diagnosis and treatment considers only the α isoform of ER; however, there is a second ER, ERβ. Whilst ERα mediates estrogen-driven proliferation of the normal breast in puberty and breast cancers, ERβ has been shown to exert an anti-proliferative effect on the normal breast. It is not known how the expression of each ER (alone or in combination) correlates with the ability of estrogen to induce proliferation in the breast. We assessed the levels of each ER in normal mouse mammary glands subdivided into proliferative and non-proliferative regions. ERα was most abundant in the proliferative regions of younger mice, with ERβ expressed most abundantly in old mice. We correlated this expression profile with function by showing that the ability of estrogen to induce proliferation was reduced in older mice. To show that the ER profile associated with breast cancer risk, we assessed ER expression in parous mice which are known to have a reduced risk of developing ERα breast cancer. ERα expression was significantly decreased yet co-localization analysis revealed ERβ expression increased with parity. Parous mice had less unopposed nuclear ERα expression and increased levels of ERβ. These changes suggest that the nuclear expression of ERs dictates the proliferative nature of the breast and may explain the decreased breast cancer risk with parity.

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Akiko Katoh Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan
Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Hiroaki Fujihara Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Toyoaki Ohbuchi Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan
Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Tatsushi Onaka Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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W Scott Young III Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Govindan Dayanithi Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Yuka Yamasaki Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Mitsuhiro Kawata Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Hitoshi Suzuki Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Hiroki Otsubo Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Hideaki Suzuki Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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David Murphy Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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Yoichi Ueta Departments of, Physiology, Otorhynolaryngology, Department of Physiology, Section on Neural Gene Expression, Department of Cellular Neurophysiology, Department of Anatomy and Neurobiology, Molecular Neuroendocrinology Research Group, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan

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We have generated rats bearing an oxytocin (OXT)-enhanced cyan fluorescent protein (eCFP) fusion transgene designed from a murine construct previously shown to be faithfully expressed in transgenic mice. In situ hybridisation histochemistry revealed that the OxteCfp fusion gene was expressed in the supraoptic nucleus (SON) and the paraventricular nucleus (PVN) in these rats. The fluorescence emanating from eCFP was observed only in the SON, the PVN, the internal layer of the median eminence and the posterior pituitary (PP). In in vitro preparations, freshly dissociated cells from the SON and axon terminals showed clear eCFP fluorescence. Immunohistochemistry for OXT and arginine vasopressin (AVP) revealed that the eCFP fluorescence co-localises with OXT immunofluorescence, but not with AVP immunofluorescence in the SON and the PVN. Although the expression levels of the OxteCfp fusion gene in the SON and the PVN showed a wide range of variations in transgenic rats, eCFP fluorescence was markedly increased in the SON and the PVN, but decreased in the PP after chronic salt loading. The expression of the Oxt gene was significantly increased in the SON and the PVN after chronic salt loading in both non-transgenic and transgenic rats. Compared with wild-type animals, euhydrated and salt-loaded male and female transgenic rats showed no significant differences in plasma osmolality, sodium concentration and OXT and AVP levels, suggesting that the fusion gene expression did not disturb any physiological processes. These results suggest that our new transgenic rats are a valuable new tool to identify OXT-producing neurones and their terminals.

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