Regulation, Function, and Dysregulation of Endocannabinoids in Models of Adipose and β-Pancreatic Cells and in Obesity and Hyperglycemia

Matias, Isabel; Gonthier, Marie‐Paule; Orlando, Pierangelo; Martiadis, Vassilis; Petrocellis, Luciano De; Cervino, Cristina; Petrosino, Stefania; Hoareau, Laurence; Festy, Franck; Pasquali, Renato; Roche, Régis; Maj, Mario; Pagotto, Uberto; Monteleone, Palmiero; Marzo, Vincenzo Di

doi:10.1210/jc.2005-2679

Cited by 597 publications

(880 citation statements)

References 34 publications

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“…Matias et al 60 reported that a CB1R agonist stimulates glucose-dependent insulin secretion (GDIS) in rat insulinoma RIN-m5F cells. These results would predict that inverse agonists should inhibit glucose-dependent insulin release.…”

Section: Pancreatic Isletsmentioning

confidence: 99%

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Cannabinoid-1 receptor inverse agonists: current understanding of mechanism of action and unanswered questions

Fong

Heymsfield

2009

Int J Obes

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Rimonabant and taranabant are two extensively studied cannabinoid-1 receptor (CB1R) inverse agonists. Their effects on in vivo peripheral tissue metabolism are generally well replicated. The central nervous system site of action of taranabant or rimonabant is firmly established based on brain receptor occupancy studies. At the whole-body level, the mechanism of action of CB1R inverse agonists includes a reduction in food intake and an increase in energy expenditure. At the tissue level, fat mass reduction, liver lipid reduction and improved insulin sensitivity have been shown. These effects on tissue metabolism are readily explained by CB1R inverse agonist acting on brain CB1R and indirectly influencing the tissue metabolism through the autonomic nervous system. It has also been hypothesized that rimonabant acts directly on adipocytes, hepatocytes, pancreatic islets or skeletal muscle in addition to acting on brain CB1R, although strong support for the contribution of peripherally located CB1R to in vivo efficacy is still lacking. This review will carefully examine the published literature and provide a perspective on what new tools and studies are required to address the peripheral site of action hypothesis.

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Section: Pancreatic Isletsmentioning

confidence: 99%

“…These results would predict that inverse agonists should inhibit glucose-dependent insulin release. Given that rimonabant has been shown to improve glycemic control in diabetic patients, the prediction of Matias et al 60 is counter-intuitive as many anti-diabetic agents such as GLP-1 are known to stimulate GDIS.…”

Section: Pancreatic Isletsmentioning

confidence: 99%

Cannabinoid-1 receptor inverse agonists: current understanding of mechanism of action and unanswered questions

Fong

Heymsfield

2009

Int J Obes

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“…Many of the biological actions of the ECS are mediated through G‐protein‐coupled cannabinoid type 1 (CB1R) and type 2 (CB2R) receptors which can be activated by several endogenous ligands, including anandamide (AEA) and 2‐arachidonoylglycerol (2‐AG). Importantly, ECS dysregulation has been linked to abdominal obesity and other risk factors for type 2 diabetes (Engeli et al ., 2005; Osei‐Hyiaman et al ., 2005; Matias et al ., 2006). For example, genetic and diet‐induced obese animal models display elevated endocannabinoid levels in the hypothalamus and peripheral tissues (Di Marzo et al ., 2001; Osei‐Hyiaman et al ., 2005; Matias et al ., 2006).…”

Section: Introductionmentioning

confidence: 99%

“…Importantly, ECS dysregulation has been linked to abdominal obesity and other risk factors for type 2 diabetes (Engeli et al ., 2005; Osei‐Hyiaman et al ., 2005; Matias et al ., 2006). For example, genetic and diet‐induced obese animal models display elevated endocannabinoid levels in the hypothalamus and peripheral tissues (Di Marzo et al ., 2001; Osei‐Hyiaman et al ., 2005; Matias et al ., 2006). Furthermore, increased circulating levels of AEA and 2‐AG, as well as elevated levels of 2‐AG within visceral adipose tissue, have been reported in obese and/or hyperglycaemic type 2 diabetic patients (Bluher et al ., 2006; Matias et al ., 2006).…”

Section: Introductionmentioning

confidence: 99%

“…For example, genetic and diet‐induced obese animal models display elevated endocannabinoid levels in the hypothalamus and peripheral tissues (Di Marzo et al ., 2001; Osei‐Hyiaman et al ., 2005; Matias et al ., 2006). Furthermore, increased circulating levels of AEA and 2‐AG, as well as elevated levels of 2‐AG within visceral adipose tissue, have been reported in obese and/or hyperglycaemic type 2 diabetic patients (Bluher et al ., 2006; Matias et al ., 2006). In accord with this, hyperactivation of CB1R‐induced signalling has been implicated in numerous metabolic abnormalities including hyperphagia, insulin resistance, glucose intolerance and impaired lipid homeostasis (Engeli et al ., 2005; Jbilo et al ., 2005; Osei‐Hyiaman et al ., 2005).…”

Section: Introductionmentioning

confidence: 99%

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CB1 receptor blockade counters age‐induced insulin resistance and metabolic dysfunction

et al. 2016

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SummaryThe endocannabinoid system can modulate energy homeostasis by regulating feeding behaviour as well as peripheral energy storage and utilization. Importantly, many of its metabolic actions are mediated through the cannabinoid type 1 receptor (CB1R), whose hyperactivation is associated with obesity and impaired metabolic function. Herein, we explored the effects of administering rimonabant, a selective CB1R inverse agonist, upon key metabolic parameters in young (4 month old) and aged (17 month old) adult male C57BL/6 mice. Daily treatment with rimonabant for 14 days transiently reduced food intake in young and aged mice; however, the anorectic response was more profound in aged animals, coinciding with a substantive loss in body fat mass. Notably, reduced insulin sensitivity in aged skeletal muscle and liver concurred with increased CB1R mRNA abundance. Strikingly, rimonabant was shown to improve glucose tolerance and enhance skeletal muscle and liver insulin sensitivity in aged, but not young, adult mice. Moreover, rimonabant‐mediated insulin sensitization in aged adipose tissue coincided with amelioration of low‐grade inflammation and repressed lipogenic gene expression. Collectively, our findings indicate a key role for CB1R in aging‐related insulin resistance and metabolic dysfunction and highlight CB1R blockade as a potential strategy for combating metabolic disorders associated with aging.

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Adipokine Production by Adipose Tissue: A Novel Target for Treating Metabolic Syndrome and its Sequelae

et al. 2011

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Regulation, Function, and Dysregulation of Endocannabinoids in Models of Adipose and β-Pancreatic Cells and in Obesity and Hyperglycemia

Abstract: Peripheral endocannabinoid overactivity might explain why CB(1) blockers cause weight-loss independent reduction of lipogenesis, of hypoadiponectinemia, and of hyperinsulinemia in obese animals and humans.

Cited by 597 publications

References 34 publications

Cannabinoid-1 receptor inverse agonists: current understanding of mechanism of action and unanswered questions

Cannabinoid-1 receptor inverse agonists: current understanding of mechanism of action and unanswered questions

CB1 receptor blockade counters age‐induced insulin resistance and metabolic dysfunction

Adipokine Production by Adipose Tissue: A Novel Target for Treating Metabolic Syndrome and its Sequelae

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