Emodin, a natural product, selectively inhibits 11β‐hydroxysteroid dehydrogenase type 1 and ameliorates metabolic disorder in diet‐induced obese mice

Feng, Ying; Huang, Suling; Dou, Wei; Zhang, Song; Chen, Junhua; Shen, Yu; Shen, Jianhua; Liu, Ying

doi:10.1111/j.1476-5381.2010.00826.x

Cited by 115 publications

(95 citation statements)

References 55 publications

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“…Therefore, theoretically, the 11b-HSD1 inhibitor cannot attenuate the active GC-induced pathological changes. A previous study reported that an 11b-HSD1 inhibitor, emodin, could reverse prednisoneinduced insulin resistance in obese mice, but had no effect on dexamethasone induction (Feng et al 2010). Similar results were observed in the action of LG13.…”

Section: Figuresupporting

confidence: 74%

Inhibition of 11β-HSD1 by LG13 improves glucose metabolism in type 2 diabetic mice

Zhao

Pan

Peng

et al. 2015

Journal of Molecular Endocrinology

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Abstract11b-hydroxysteroid dehydrogenase type 1 (11b-HSD1) controls the production of active glucocorticoid (GC) and has been proposed as a new target for the treatment of type 2 diabetes. We have previously reported that a natural product, curcumin, exhibited moderate inhibition and selectivity on 11b-HSD1. By analyzing the models of protein, microsome, cells and GCs-induced mice in vitro and in vivo, this study presented a novel curcumin analog, LG13, as a potent selective 11b-HSD1 inhibitor. In vivo, Type 2 diabetic mice were treated with LG13 for 42 days to assess the pharmacological benefits of 11b-HSD1 inhibitor on hepatic glucose metabolism. In vitro studies revealed that LG13 selectively inhibited 11b-HSD1 with IC 50 values at nanomolar level and high selectivity over 11b-HSD2. Targeting 11b-HSD1, LG13 could inhibit prednisone-induced adverse changes in mice, but had no effects on dexamethasone-induced ones. Further, the 11b-HSD1 inhibitors also suppressed 11b-HSD1 and GR expression, indicating a possible positive feedback system in the 11b-HSD1/GR cycle. In type 2 diabetic mice induced by high fat diet plus low-dosage STZ injection, oral administration with LG13 for 6 weeks significantly decreased fasting blood glucose, hepatic glucose metabolism, structural disorders, and lipid deposits. LG13 exhibited better pharmacological effects in vivo than insulin sensitizer pioglitazone and potential 11b-HSD1 inhibitor PF-915275. These pharmacological and mechanistic insights on LG13 also provide us novel agents, leading structures, and strategy for the development of 11b-HSD1 inhibitors treating metabolic syndromes.

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Section: Figuresupporting

confidence: 74%

Inhibition of 11β-HSD1 by LG13 improves glucose metabolism in type 2 diabetic mice

Zhao

Pan

Peng

et al. 2015

Journal of Molecular Endocrinology

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“…It demonstrates a variety of biological activities, such as anti-virus activities, anti-tumor activities, anti-inflammatory activities, and immune suppression, and it can also serve as a potential agent in therapy for liver cirrhosis, diabetic nephropathy and atherosclerosis [15][16][17][18][19][20] . Our previous study showed that emodin is a potent and selective 11β-HSD1 inhibitor and can ameliorate metabolic disorders in diet-induced obese mice [21] . In the present study, we investigated the effect of emodin on adipocyte function and the underlying mechanisms involving inhibition of 11β-HSD1.…”

Section: Introductionmentioning

confidence: 99%

Emodin, an 11β-hydroxysteroid dehydrogenase type 1 inhibitor, regulates adipocyte function in vitro and exerts anti-diabetic effect in ob/ob mice

et al. 2012

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Aim: Emodin (1,3,8-trihydroxy-6-methylanthraquinone) is a potent and selective inhibitor of 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) with the ability to ameliorate metabolic disorders in diet-induced obese mice. In the present study, we investigated the effects of emodin on adipocyte function and the underlying mechanisms in vitro, and its anti-diabetic effects in ob/ob mice. Methods: 3T3-L1 adipocytes were used for in vitro studies. 11β-HSD1A activity was evaluated with a scintillation proximity assay. The adipogenesis, glucose uptake, lipolysis and adiponectin secretion were investigated in 3T3-L1 adipocytes treated with emodin in the presence of active (corticosterone) or inactive glucocorticoid (11-dehydrocorticosterone). For in vivo studies, ob/ob mice were administered emodin (25 and 50 mg·kg -1 ·d -1 , ip) for 26 d. On the last day of administration, the serum was collected and the mesenteric and perirenal fat were dissected for analyses. Results: Emodin inhibited the 11β-HSD1 activity in 3T3-L1 adipocytes in concentration-and time-dependent manners (the IC 50 values were 7.237 and 4.204 μmol/L, respectively, after 1 and 24 h treatment. In 3T3-L1 adipocytes, emodin (30 μmol/L) suppressed 11-dehydrocorticosterone-induced adipogenesis without affecting corticosterone-induced adipogenesis; emodin (3 μmol/L) reduced 11-dehydrocorticosterone-stimulated lipolysis, but had no effect on corticosterone-induced lipolysis. Moreover, emodin (3 μmol/L) partly reversed the impaired insulin-stimulated glucose uptake and adiponectin secretion induced by 11-dehydrocorticosterone but not those induced by corticosterone. In ob/ob mice, long-term emodin administration decreased 11β-HSD1 activity in mesenteric adipose tissues, lowered non-fasting and fasting blood glucose levels, and improved glucose tolerance. Conclusion: Emodin improves the inactive glucocorticoid-induced adipose tissue dysfunction by selective inhibition on 11β-HSD1 in adipocyte in vitro and improves glycemic control in ob/ob mice.

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“…The 24 h ambulatory blood pressure measurements data (from the subset of patients who participated in ambulatory blood pressure measurements) suggest that MK-0736 has blood pressurelowering efficacy over a 24 h period not adequately represented by measuring sitting diastolic blood pressure and sitting systolic blood pressure, notably a greater blood pressure-lowering effect during daytime than during night-time (S. Shah et al, 2011). 11 -HSD1 inhibitors may improve a number of metabolic disturbances, unlike current available anti-diabetic compounds, that occur in obesity, T2DM and/or MetSyn patients, as seen from genetically engineered animal studies (Kotelevtsev et al, 1997;Morton et al, 2001;Morton et al, 2004) as well as from animal (Alberts et al, 2002;Alberts et al, 2003;Barf et al, 2002;Cooper & Stewart, 2009;Feng et al, 2010;Gathercole & Stewart, 2010;Hermanowski-Vosatka et al, 2005;Johansson et al, 2008;J. Liu et al, 2011;Livingstone & Walker, 2003;Morgan et al, 2009;Park et al, 2011;Taylor et al, 2008;Véniant et al, 2010;S.…”

Section: Human 11β-hsd1 Inhibition Studiesmentioning

confidence: 99%

“…Besides inhibition of 11 -HSD1 reductase activity, increase of 11 -HSD1 dehydrogenase (oxidase) activity, without inhibition of 11 -HSD2, may provide a better therapeutic strategy for T2DM, obesity and MetSyn (Ge et al, 2010). 11 -HSD1 is also inhibited by natural compounds, such as an active ingredient of various Chinese herbs (emodin), derivatives or analogues of the licorice root, coffee extract, flavanone (and the monohydroxylated flavonoid 2′-hydroxyflavanone), endogenous steroids and their metabolites and bile acids (Andrews et al, 2003;Atanasov et al, 2006;Chalbot & Morfin, 2006;Classen-Houben et al, 2009;Diederich et al, 2000;Feng et al, 2010;Gathercole & Stewart, 2010;Hollis & Huber, 2011;Latif et al, 2005;Livingstone & Walker, 2003;Maeda et al, 2010;Monder et al, 1989;Morris et al, 2004;Odermatt & Nashev, 2010;Sandeep et al, 2005;Schweizer et al, 2003;Su et al, 2007;Taylor et al, 2008;van Raalte et al, 2009;Walker et al, 1995a;Wamil & Seckl, 2007). Glycyrrhetinic acid, the active pharmacological ingredient of the licorice root and some of its derivatives, as well as its steroidal synthetic analogue carbenoxolone (hemisuccinate derivative of glycyrrhetinic acid) are inhibitors of both 11 -HSD1 and 11 -HSD2 (the magnitude of the effect being dependent on in vitro versus in vivo environment, dose, administration mode, tissue and specie as well as compound structure) (Abdallah et al, 2005;Andrews et al, 2003;Classen-Houben et al, 2009;Gathercole & Stewart, 2010;Hollis & Huber, 2011;Jellinck et al, 1993;Livingstone & Walker, 2003;Monder et al, 1989;Sandeep et al, 2005;Su et al, 2007;…”

Section: β-Hsd1 Inhibition Studiesmentioning

confidence: 99%

11β-Hydroxysteroid Dehydrogenase Type 1 and the Metabolic Syndrome

Pereira¹,

Martins²,

Azevedo³

et al. 2011

Steroids - Clinical Aspect

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Emodin, a natural product, selectively inhibits 11β‐hydroxysteroid dehydrogenase type 1 and ameliorates metabolic disorder in diet‐induced obese mice

Cited by 115 publications

References 55 publications

Inhibition of 11β-HSD1 by LG13 improves glucose metabolism in type 2 diabetic mice

Inhibition of 11β-HSD1 by LG13 improves glucose metabolism in type 2 diabetic mice

Emodin, an 11β-hydroxysteroid dehydrogenase type 1 inhibitor, regulates adipocyte function in vitro and exerts anti-diabetic effect in ob/ob mice

11β-Hydroxysteroid Dehydrogenase Type 1 and the Metabolic Syndrome

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