11{beta}-Hydroxysteroid Dehydrogenase 1 Transforms 11-Dehydrocorticosterone into Transcriptionally Active Glucocorticoid in Neonatal Rat Heart

doi:10.1210/en.143.1.198

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11ß-Hydroxysteroid Dehydrogenase 1 Transforms 11-Dehydrocorticosterone into Transcriptionally Active Glucocorticoid in Neonatal Rat Heart

Karen E. Sheppard and Dominic J. Autelitano

Baker Medical Research Institute, Melbourne, Victoria, Australia 8008

Address all correspondence and requests for reprints to: Karen E. Sheppard, Baker Medical Research Institute, P.O. Box 6492, St. Kilda Road, Central Melbourne, Victoria, Australia, 8008. E-mail: karen.sheppard{at}baker.edu.au

The ability of cells to directly respond to glucocorticoidsand aldosterone is a function of GR and MR expression, and coexpressionof 11ß-hydroxysteroid dehydrogenases (11ßHSDs), whichconvert glucocorticoids and their 11-ketometabolites into eitherreceptor inactive or active derivatives. The aim of the present studywas to determine the cellular expression of GR, MR, 11ßHSD1, and11ßHSD2 in neonatal rat heart and determine the rolethese enzymes play in modulating glucocorticoid and aldosteroneaction. Ribonuclease protection analysis and steroid bindingassays showed that GR is expressed in both cardiac myocytesand fibroblasts, whereas MR is expressed only in myocytes. 11ßHSD2was not detected in cardiac cells, but 11ßHSD1 wasexpressed at high levels in both cardiac myocytes and fibroblasts.Enzyme activity studies demonstrated that 11ßHSD1acted as a reductase only, converting biologically inactive 11-dehydrocorticosteroneto corticosterone, which then stimulated serum and glucocorticoid-inducedkinase gene transcription via GR. In both cardiac myocytes andfibroblasts, aldosterone stimulated serum and glucocorticoid-inducedkinase gene expression exclusively via GR, but not MR, indicatingthat aldosterone can have glucocorticoid-like actions in heart.The ability of cardiac cells to use both circulating corticosteroneand 11-dehydrocorticosterone as a source of glucocorticoid suggeststhat the heart is under tonic glucocorticoid control, implyingthat glucocorticoids play important homeostatic roles in theheart.

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				J. M C Connell and E. Davies The new biology of aldosterone J. Endocrinol., July 1, 2005; 186(1): 1 - 20. [Abstract] [Full Text] [PDF]

				G. M. Kuster, E. Kotlyar, M. K. Rude, D. A. Siwik, R. Liao, W. S. Colucci, and F. Sam Mineralocorticoid Receptor Inhibition Ameliorates the Transition to Myocardial Failure and Decreases Oxidative Stress and Inflammation in Mice With Chronic Pressure Overload Circulation, February 1, 2005; 111(4): 420 - 427. [Abstract] [Full Text] [PDF]

				J. W. Tomlinson, E. A. Walker, I. J. Bujalska, N. Draper, G. G. Lavery, M. S. Cooper, M. Hewison, and P. M. Stewart 11{beta}-Hydroxysteroid Dehydrogenase Type 1: A Tissue-Specific Regulator of Glucocorticoid Response Endocr. Rev., October 1, 2004; 25(5): 831 - 866. [Abstract] [Full Text] [PDF]

				W. Qin, A. E. Rudolph, B. R. Bond, R. Rocha, E. A.G. Blomme, J. J. Goellner, J. W. Funder, and E. G. McMahon Transgenic Model of Aldosterone-Driven Cardiac Hypertrophy and Heart Failure Circ. Res., July 11, 2003; 93(1): 69 - 76. [Abstract] [Full Text] [PDF]

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