Increased glucocorticoid receptor expression in human skeletal muscle cells may contribute to the pathogenesis of the metabolic syndrome
Increased glucocorticoid receptor expression in human skeletal muscle cells may contribute to the pathogenesis of the metabolic syndrome
Altered glucocorticoid hormone action may contribute to the etiology of the metabolic syndrome, but the molecular mechanisms are poorly defined. Tissue sensitivity to glucocorticoid is regulated by expression of the glucocorticoid receptor (GR)-? and 11ß-hydroxysteroid dehydrogenase type I (11ß-HSD1)-mediated intracellular synthesis of active cortisol from inactive cortisone. We have analyzed GR? and 11ß-HSD1 expression in skeletal myoblasts from men (n = 14) with contrasting levels of insulin sensitivity (euglycemic clamp measurements of insulin-dependent glucose disposal rate), blood pressure, and adiposity.
Positive associations were evident between myoblast expression of GR? under basal conditions and levels of insulin resistance (r^2 = 0.34, P < 0.05), BMI (r^2 = 0.49, P < 0.01), percent body fat (r^2 = 0.34, P < 0.02), and blood pressure (r2 = 0.86, P < 0.001). Similar associations were evident when myoblasts were incubated with physiological levels of cortisol (P < 0.01 for all). Importantly, GR? expression was unaffected by variations in in vivo concentrations of insulin, IGF-1, or glucose concentrations. In common with the GR, 11ß-HSD1 expression in myoblasts incubated with physiological concentrations of cortisol in vitro was positively associated with levels of insulin resistance (r^2 = 0.68, P < 0.001), BMI (r^2 = 0.63, P < 0.005), and blood pressure (r^2 = 0.27, P < 0.05). Regulation of GR? and 11ß-HSD1 by cortisol was abolished by the GR antagonist RU38486. In summary, our data suggest that raised skeletal muscle cell expression of GR? and 11ß -HSD1-mediated regulation of intracellular cortisol may play a fundamental role in mechanisms contributing to the pathogenesis of the metabolic syndrome.
1066-1075
Whorwood, Christopher B.
25713369-da12-4c30-8d2d-b121a349f03e
Donovan, Stephen J.
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Flanagan, Daniel
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Phillips, David I.W.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Byrne, Christopher D.
1370b997-cead-4229-83a7-53301ed2a43c
April 2002
Whorwood, Christopher B.
25713369-da12-4c30-8d2d-b121a349f03e
Donovan, Stephen J.
cfb98bc3-2b7b-4d38-b894-93d1bc487a7e
Flanagan, Daniel
2f0cc41a-3f6c-437d-b298-85d97877bb05
Phillips, David I.W.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Byrne, Christopher D.
1370b997-cead-4229-83a7-53301ed2a43c
Whorwood, Christopher B., Donovan, Stephen J., Flanagan, Daniel, Phillips, David I.W. and Byrne, Christopher D.
(2002)
Increased glucocorticoid receptor expression in human skeletal muscle cells may contribute to the pathogenesis of the metabolic syndrome.
Diabetes, 51 (4), .
(doi:10.2337/diabetes.51.4.1066).
Abstract
Altered glucocorticoid hormone action may contribute to the etiology of the metabolic syndrome, but the molecular mechanisms are poorly defined. Tissue sensitivity to glucocorticoid is regulated by expression of the glucocorticoid receptor (GR)-? and 11ß-hydroxysteroid dehydrogenase type I (11ß-HSD1)-mediated intracellular synthesis of active cortisol from inactive cortisone. We have analyzed GR? and 11ß-HSD1 expression in skeletal myoblasts from men (n = 14) with contrasting levels of insulin sensitivity (euglycemic clamp measurements of insulin-dependent glucose disposal rate), blood pressure, and adiposity.
Positive associations were evident between myoblast expression of GR? under basal conditions and levels of insulin resistance (r^2 = 0.34, P < 0.05), BMI (r^2 = 0.49, P < 0.01), percent body fat (r^2 = 0.34, P < 0.02), and blood pressure (r2 = 0.86, P < 0.001). Similar associations were evident when myoblasts were incubated with physiological levels of cortisol (P < 0.01 for all). Importantly, GR? expression was unaffected by variations in in vivo concentrations of insulin, IGF-1, or glucose concentrations. In common with the GR, 11ß-HSD1 expression in myoblasts incubated with physiological concentrations of cortisol in vitro was positively associated with levels of insulin resistance (r^2 = 0.68, P < 0.001), BMI (r^2 = 0.63, P < 0.005), and blood pressure (r^2 = 0.27, P < 0.05). Regulation of GR? and 11ß-HSD1 by cortisol was abolished by the GR antagonist RU38486. In summary, our data suggest that raised skeletal muscle cell expression of GR? and 11ß -HSD1-mediated regulation of intracellular cortisol may play a fundamental role in mechanisms contributing to the pathogenesis of the metabolic syndrome.
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Published date: April 2002
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Local EPrints ID: 26124
URI: http://eprints.soton.ac.uk/id/eprint/26124
ISSN: 0012-1797
PURE UUID: 3dfb5677-fc77-4397-8288-1a520d8d0d1b
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Date deposited: 12 Apr 2006
Last modified: 16 Mar 2024 03:07
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Author:
Christopher B. Whorwood
Author:
Stephen J. Donovan
Author:
Daniel Flanagan
Author:
David I.W. Phillips
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