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Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism

Excessive exposure to glucocorticoids (GCs), either from endogenous overproduction of cortisol, or exogenous pharmacological GC treatment, potentiates the development of diabetes and obesity in a fat depot-specific manner. Undesirable metabolic side effects resulting from the activation of the gluco...

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Autores principales: Li, Jia Xu, Cummins, Carolyn L
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8090170/
http://dx.doi.org/10.1210/jendso/bvab048.1674
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author Li, Jia Xu
Cummins, Carolyn L
author_facet Li, Jia Xu
Cummins, Carolyn L
author_sort Li, Jia Xu
collection PubMed
description Excessive exposure to glucocorticoids (GCs), either from endogenous overproduction of cortisol, or exogenous pharmacological GC treatment, potentiates the development of diabetes and obesity in a fat depot-specific manner. Undesirable metabolic side effects resulting from the activation of the glucocorticoid receptor (GR) remain a key limitation to the long-term therapeutic use of GCs as immunosuppressants. GC treatment disrupts the thermogenic function of brown adipose tissue (BAT) and enhances futile cycling within white adipose tissue (WAT). Mice lacking the liver X receptors (LXRs) were previously shown to have smaller AT depots with enhanced BAT activity compared to wildtype (WT) mice. We previously demonstrated that LXRβ is required to mediate the side effects of GCs in the liver but not the beneficial anti-inflammatory effects of GCs. The discovery of this GC/LXRβ cross-talk led to the hypothesis that LXRβ antagonism may be therapeutically beneficial to prevent GC-induced dysfunction in AT. To test this idea, LXRα-/- mice were treated for 5 days with vehicle, 5 mg/kg dexamethasone (Dex, a synthetic GC agonist), and/or 40 mg/kg GSK2033 (GSK, non-selective LXR antagonist). As expected, Dex-treated mice showed significant accumulation of lipids in BAT and were unable to maintain their body temperature when exposed to cold, yet GSK was able to protect against these effects. Dex increased body fat mass and caused adipocyte enlargement in WAT which was not observed in mice co-treated with GSK. At the transcriptional level, GSK attenuated Dex-mediated downregulation of thermogenic genes in BAT, and upregulation of lipogenic genes in WAT. Similar beneficial changes were confirmed in WT mice. The protection afforded by GSK against Dex-induced fat accumulation was confirmed to be cell-autonomous from studies in adipose-specific LXRβ-/- mice (AdβKO). Dex-dependent increases in lipolysis in gonadal WAT and plasma free fatty acids (FFA) were also attenuated by GSK co-treatment. With GSK co-treatment, Dex-induced liver steatosis was diminished suggesting that LXRβ antagonism attenuated FFA shuttling to the liver. The lipolytic and lipotoxic effects of Dex in AT and liver were largely abrogated in AdβKO along with improved systemic insulin sensitivity. Overall, our data suggest that LXRβ antagonism prevents disruption of BAT and WAT (and indirectly liver) function caused by GC treatment in an in vivo model, highlighting the potential role of LXRβ antagonists in combating the negative effects of excessive GC exposure on the development of diabetes and obesity. The identification of this novel mechanism of interrupting GC adipose tissue action suggests therapeutic targeting of LXRβ with an antagonist could improve the health of patients currently taking GCs to control inflammation but suffer the detrimental side effects of drug treatment.
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spelling pubmed-80901702021-05-06 Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism Li, Jia Xu Cummins, Carolyn L J Endocr Soc Steroid Hormones and Receptors Excessive exposure to glucocorticoids (GCs), either from endogenous overproduction of cortisol, or exogenous pharmacological GC treatment, potentiates the development of diabetes and obesity in a fat depot-specific manner. Undesirable metabolic side effects resulting from the activation of the glucocorticoid receptor (GR) remain a key limitation to the long-term therapeutic use of GCs as immunosuppressants. GC treatment disrupts the thermogenic function of brown adipose tissue (BAT) and enhances futile cycling within white adipose tissue (WAT). Mice lacking the liver X receptors (LXRs) were previously shown to have smaller AT depots with enhanced BAT activity compared to wildtype (WT) mice. We previously demonstrated that LXRβ is required to mediate the side effects of GCs in the liver but not the beneficial anti-inflammatory effects of GCs. The discovery of this GC/LXRβ cross-talk led to the hypothesis that LXRβ antagonism may be therapeutically beneficial to prevent GC-induced dysfunction in AT. To test this idea, LXRα-/- mice were treated for 5 days with vehicle, 5 mg/kg dexamethasone (Dex, a synthetic GC agonist), and/or 40 mg/kg GSK2033 (GSK, non-selective LXR antagonist). As expected, Dex-treated mice showed significant accumulation of lipids in BAT and were unable to maintain their body temperature when exposed to cold, yet GSK was able to protect against these effects. Dex increased body fat mass and caused adipocyte enlargement in WAT which was not observed in mice co-treated with GSK. At the transcriptional level, GSK attenuated Dex-mediated downregulation of thermogenic genes in BAT, and upregulation of lipogenic genes in WAT. Similar beneficial changes were confirmed in WT mice. The protection afforded by GSK against Dex-induced fat accumulation was confirmed to be cell-autonomous from studies in adipose-specific LXRβ-/- mice (AdβKO). Dex-dependent increases in lipolysis in gonadal WAT and plasma free fatty acids (FFA) were also attenuated by GSK co-treatment. With GSK co-treatment, Dex-induced liver steatosis was diminished suggesting that LXRβ antagonism attenuated FFA shuttling to the liver. The lipolytic and lipotoxic effects of Dex in AT and liver were largely abrogated in AdβKO along with improved systemic insulin sensitivity. Overall, our data suggest that LXRβ antagonism prevents disruption of BAT and WAT (and indirectly liver) function caused by GC treatment in an in vivo model, highlighting the potential role of LXRβ antagonists in combating the negative effects of excessive GC exposure on the development of diabetes and obesity. The identification of this novel mechanism of interrupting GC adipose tissue action suggests therapeutic targeting of LXRβ with an antagonist could improve the health of patients currently taking GCs to control inflammation but suffer the detrimental side effects of drug treatment. Oxford University Press 2021-05-03 /pmc/articles/PMC8090170/ http://dx.doi.org/10.1210/jendso/bvab048.1674 Text en © The Author(s) 2021. Published by Oxford University Press on behalf of the Endocrine Society. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs licence (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) ), which permits non-commercial reproduction and distribution of the work, in any medium, provided the original work is not altered or transformed in any way, and that the work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Steroid Hormones and Receptors
Li, Jia Xu
Cummins, Carolyn L
Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title_full Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title_fullStr Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title_full_unstemmed Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title_short Disruption of Adipose Tissue Metabolism by Glucocorticoids Is Attenuated With LXRβ Antagonism
title_sort disruption of adipose tissue metabolism by glucocorticoids is attenuated with lxrβ antagonism
topic Steroid Hormones and Receptors
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8090170/
http://dx.doi.org/10.1210/jendso/bvab048.1674
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