N. Vijapurapu scite author profile

N. Vijapurapu

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Corticosteroids, 11β‐Hydroxysteroid Dehydrogenase Isozymes and the Rabbit Choroid Plexus

Sinclair¹,

Onyimba²,

Khosla³

et al. 2007

J Neuroendocrinology

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The epithelial cells of the choroid plexus (CP) are responsible for cerebrospinal fluid (CSF) secretion into the ventricles of the brain. The balance between CSF production and drainage, in part, facilitates a normal intracranial pressure. The secretion of Na(+) and anions by the CP creates an osmotic gradient driving water into the ventricles. This is opposite to classical Na(+) transporting tissues, such as the kidney, where Na(+) and water reabsorption is mediated by 11beta-hydroxysteroid dehydrogenase type 2 that protects the mineralocorticoid receptor by abrogating active cortisol to inactive cortisone. In the human ocular ciliary epithelium, Na(+) and water secretion is dependent on a novel mediator of ciliary epithelial Na(+) transport, 11beta-HSD type 1 (11beta-HSD1), that generates intraocular cortisol. In a mechanism analogous to that of the embryologically related ocular ciliary epithelium, we propose that autocrine regulation of intracranial cortisol is dependent on 11beta-HSD1 expression in the CP epithelial cells. By conducting immunolocalisation studies on brains from New Zealand White Albino rabbits, we defined the expression of 11beta-HSD1 in the secretory CP epithelial cells. Enzyme assays performed on intact rabbit CP whole tissue explants confirmed predominant 11beta-HSD1 activity, generating cortisol that was inhibited by glycyrrhetinic acid (an 11beta-HSD inhibitor). Using the real time-polymerase chain reaction, rabbit CP tissue was found to express levels of 11beta-HSD1, glucocorticoid receptor alpha and serum and glucocorticoid-regulated kinase 1 mRNA comparable to that expressed in rabbit ocular ciliary body, thereby highlighting the similarity between these two tissues. Furthermore, an enzyme-linked immunosorbent assay of rabbit CSF revealed a median cortisol concentration of 1.7 nmol/l (range 1.4-4.3 nmol/l, n = 9). Our data have identified a functional 11beta-HSD1 within the CP, mediating intracranial cortisol bioavailability. Expression of 11beta-HSD1 may be fundamental in the regulation of CSF secretion and the local generation of cortisol may represent a pathophysiological mechanism underlying cortisol-dependent neuroendocrine diseases.

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Characterisation of the prereceptor regulation of glucocorticoids in the anterior segment of the rabbit eye

Onyimba¹,

Vijapurapu²,

Curnow³

et al. 2006

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The prereceptor regulation of glucocorticoids (GCs) by 11b-hydroxysteroid dehydrogenase type-1 (11b-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 11b-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 11b-HSD1, immunohistochemical analyses were performed on paraffin-embedded sections of whole New Zealand white albino rabbits, (NZWAR) eyes. As in human studies, 11b-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 11b-HSD1 oxo-reductase activity from both the intact ciliary body tissue (nZ12, median 2$1 pmol/mg per h and range 1$25-2$8 pmol/mg per h; PZ0$006) and primary cultures of corneal epithelial cells (nZ12, median 3$0 pmol/mg per h and range 1$0-7$4 pmol/mg per h, PZ0$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 11b-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. 11b-HSD1 activity was not demonstrated in naïve conjunctival fibroblasts or corneal stromal keratocytes. Our results indicate that the distribution of 11b-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 11b-HSD1 activity in the eye, especially its role in corneal epithelial and ciliary body physiology.

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N. Vijapurapu

Corticosteroids, 11β‐Hydroxysteroid Dehydrogenase Isozymes and the Rabbit Choroid Plexus

Characterisation of the prereceptor regulation of glucocorticoids in the anterior segment of the rabbit eye

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