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Claire U Onyimba Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Neelima Vijapurapu Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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S John Curnow Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Pamela Khosla Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Paul M Stewart Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Philip I Murray Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Elizabeth A Walker Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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Saaeha Rauz Academic Unit of Ophthalmology, Division of Immunity and Infection and
Department of Endocrinology, Division of Medical Sciences, Institute of Biomedical Research, The Medical School, University of Birmingham, Edgbaston, Birmingham B15 5TT, UK

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The prereceptor regulation of glucocorticoids (GCs) by 11β-hydroxysteroid dehydrogenase type-1 (11β-HSD1), a bidirectional isozyme that interconverts active (cortisol) and inactive (cortisone) GCs, is an established determinant of GC function in tissues such as liver, adipose and bone. Although the therapeutic use of GCs is abundant in ophthalmic practice, where GC interactions with nuclear receptors modulate gene transcription, the prereceptor regulation of endogenous cortisol is not well described in ocular tissues. Recent descriptive studies have localised 11β-HSD1 to the human corneal epithelium and non-pigmented epithelium (NPE) of the ciliary body, indicating a link to corneal epithelial physiology and aqueous humour production. In this study, we characterise the functional aspects of the autocrine regulation of GCs in the anterior segment of the rabbit eye. Using our in-house generated primary antibody to human 11β-HSD1, immunohistochemical analyses were performed on paraffin-embedded sections of whole New Zealand white albino rabbits, (NZWAR) eyes. As in human studies, 11β-HSD1 was localised to the corneal epithelium and the NPE. No staining was seen in the albino ‘pigmented’ ciliary epithelium. Specific enzyme assays for oxo-reductase (cortisone→cortisol) and dehydrogenase (cortisol→cortisone) activity indicated predominant 11β-HSD1 oxo-reductase activity from both the intact ciliary body tissue (n=12, median 2.1 pmol/mg per h and range 1.25–2.8 pmol/mg per h; P=0.006) and primary cultures of corneal epithelial cells (n=12, median 3.0 pmol/mg per h and range 1.0–7.4 pmol/mg per h, P=0.008) compared with dehydrogenase activity (median 1.0 pmol/mg per h and range 0.5–2.0 pmol/mg per h; median 0.5 pmol/mg per h and range 0.25–1.9 pmol/mg per h respectively). These findings were supported by expression of 11β-HSD1 protein as visualised by Western blotting of ciliary body tissue and immunocytochemistry of corneal epithelial cells. Reduction of corneal epithelial cell proliferation was seen after primary cultures were co-incubated with cortisol and cortisone. 11β-HSD1 activity was not demonstrated in naïve conjunctival fibroblasts or corneal stromal keratocytes. Our results indicate that the distribution of 11β-HSD1 in the rabbit resembles that of the human eye and activates cortisone to cortisol in both corneal and uveal tissues. The NZWAR provides a suitable in vivo model for the further evaluation of 11β-HSD1 activity in the eye, especially its role in corneal epithelial and ciliary body physiology.

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Iwona J Bujalska Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Omar M Durrani Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Joseph Abbott Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Claire U Onyimba Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Pamela Khosla Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Areeb H Moosavi Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Tristan T Q Reuser Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Paul M Stewart Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Jeremy W Tomlinson Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Elizabeth A Walker Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Saaeha Rauz Department of Endocrinology, Division of Medical Sciences,
Academic Unit of Ophthalmology, Division of Immunity and Infection, University of Birmingham,
Birmingham and Midland Eye Centre, Dudley Road, Birmingham B18 7QU, UK

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Glucocorticoids (GCs) have a profound effect on adipose biology increasing tissue mass causing central obesity. The pre-receptor regulation of GCs by 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) that activates cortisol from cortisone has been postulated as a fundamental mechanism underlying the metabolic syndrome mediating adipocyte hyperplasia and hypertrophy in the omental (OM) depot. Orbital adipose tissue (OF) is the site of intense inflammation and tissue remodelling in several orbital inflammatory disease states. In this study, we describe features of the GC metabolic pathways in normal human OF depot and compare it with subcutaneous (SC) and OM depots. Using an automated histological characterisation technique, OF adipocytes were found to be significantly smaller (parameters: area, maximum diameter and perimeter) than OM and SC adipocytes (P<0.001). Although immunohistochemical analyses demonstrated resident CD68+ cells in all three whole tissue adipose depots, OF CD68 mRNA and protein expression exceeded that of OM and SC (mRNA, P<0.05; protein, P<0.001). In addition, there was higher expression of glucocorticoid receptor (GR)α mRNA in the OF whole tissue depot (P<0.05). Conversely, 11β-HSD1 mRNA together with the markers of late adipocyte differentiation (FABP4 and G3PDH) were significantly lower in OF. Primary cultures of OF preadipocytes demonstrated predominant 11β-HSD1 oxo-reductase activity with minimal dehydrogenase activity. Orbital adipocytes are smaller, less differentiated, and express low levels of 11β-HSD1 but abundant GRα compared with SC and OM. OF harbours a large CD68+ population. These characteristics define an orbital microenvironment that has the potential to respond to sight-threatening orbital inflammatory disease.

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