Activation of Transmembrane Bile Acid Receptor TGR5 Modulates Pancreatic Islet α Cells to Promote Glucose Homeostasis

Kumar, Divya P.; Asgharpour, Amon; Mirshahi, Faridoddin; Park, So Hyun; Liu, Sichen; Imai, Yumi; Nadler, Jerry L.; Grider, John R.; Murthy, Karnam S.; Sanyal, Arun J.

doi:10.1074/jbc.m115.699504

Cited by 107 publications

(97 citation statements)

References 52 publications

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“…Activation of TGR5 has been shown to protect against inflammation in the intestine and liver [50], stimulate GLP-1 secretion from enteroendocrine L cells and insulin synthesis and secretion from pancreatic β-cells [41, 75], and protect cholangiocytes from bile acid toxicity in cholestasis. Thus, it is a potential therapy for cholestasis [50].…”

Section: Bile Acids As Therapeutic Agentsmentioning

confidence: 99%

Bile acid metabolism and signaling in liver disease and therapy

2017

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Bile acids play a critical role in the regulation of glucose, lipid, and energy metabolism through activation of the nuclear bile acid receptor farnesoid X receptor (FXR) and membrane G protein-coupled bile acid receptor-1 (Gpbar-1, aka TGR5). Agonist activation of FXR and TGR5 improves insulin and glucose sensitivity and stimulates energy metabolism to prevent diabetes, obesity, and non-alcoholic fatty liver disease (NAFLD). Bile acids have both pro- and anti-inflammatory actions through FXR and TGR5 in the intestine and liver. In the intestine, bile acids activate FXR and TGR5 to stimulate stimulate fibroblast growth factor 15 and glucagon-like peptide-1 secretion. FXR and TGR5 agonists may have therapeutic potential for treating liver-related metabolic diseases, such as diabetes and NAFLD.

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Section: Bile Acids As Therapeutic Agentsmentioning

confidence: 99%

Bile acid metabolism and signaling in liver disease and therapy

2017

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“…As a result, TGR5 could be activated by WB403 to improve glucose tolerance, decrease fasting blood glucose and the glycosylated hemoglobin A1c (HbA1c) in T2D mice (Zheng et al, 2015). In the new reports, Kumar et al (2016) shown that TGR5 induced GLP-1 release from pancreatic α cells via an Epac-mediated PKA-independent mechanism. Agarwal et al (2016) also shown the important roles of TGR5 in T2D.…”

Section: Tgr5 and Different Diseasesmentioning

confidence: 99%

TGR5, Not Only a Metabolic Regulator

2016

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G-protein-coupled bile acid receptor, Gpbar1 (TGR5), is a member of G-protein-coupled receptor (GPCR) superfamily. High levels of TGR5 mRNA were detected in several tissues such as small intestine, stomach, liver, lung, especially in placenta and spleen. TGR5 is not only the receptor for bile acids, but also the receptor for multiple selective synthetic agonists such as 6α-ethyl-23(S)-methyl-cholic acid (6-EMCA, INT-777) and a series of 4-benzofuranyloxynicotinamde derivatives to regulate different signaling pathways such as nuclear factor κB (NF-κB), AKT, and extracellular signal-regulated kinases (ERK). TGR5, as a metabolic regulator, is involved in energy homeostasis, bile acid homeostasis, as well as glucose metabolism. More recently, our group and others have extended the functions of TGR5 to more than metabolic regulation, which include inflammatory response, cancer and liver regeneration. These findings highlight TGR5 as a potential drug target for different diseases. This review summarizes the basic information of TGR5 and its new functions.

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“…Li et al, 2011), modulates energy expenditure (Watanabe et al, 2006), stimulates GLP-1 release from intestinal L cells (Habib et al, 2013; Katsuma et al, 2005; Thomas et al, 2009), suppresses hepatic glycogenolysis (Potthoff et al, 2013) reduces inflammation (Frikke Schmidt et al, 2016) and inflammatory macrophage activation (Kawamata et al, 2003; Keitel et al, 2008; Lou et al, 2014; Maruyama et al, 2002; Y. D. Wang et al, 2008), improves pancreatic function (Kumar et al, 2016; Vettorazzi et al, 2016) and improves non-alcoholic fatty liver disease (Ding et al, 2016). TGR5 knockout mice have mildly reduced BA pools (Maruyama et al, 2006; Vassileva et al, 2006), impaired glucose tolerance (Thomas et al, 2009) and exacerbated inflammatory responses (Péan et al, 2013).…”

Section: Bile Acidsmentioning

confidence: 99%

Bile acids and bariatric surgery

Albaugh

Banan

Ajouz

et al. 2017

Molecular Aspects of Medicine

111

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Bariatric surgery, specifically Roux-en-Y gastric bypass (RYGB) and vertical sleeve gastrectomy (VSG), are the most effective and durable treatments for morbid obesity and potentially a viable treatment for type 2 diabetes (T2D). The resolution rate of T2D following these procedures is between 40-80% and far surpasses that achieved by medical management alone. The molecular basis for this improvement is not entirely understood, but has been attributed in part to the altered enterohepatic circulation of bile acids. In this review we highlight how bile acids potentially contribute to improved lipid and glucose homeostasis, insulin sensitivity and energy expenditure after these procedures. The impact of altered bile acid levels in enterohepatic circulation is also associated with changes in gut microflora, which may further contribute to some of these beneficial effects. We highlight the beneficial effects of experimental surgical procedures in rodents that alter bile secretory flow without gastric restriction or altering nutrient flow. This information suggests a role for bile acids beyond dietary fat emulsification in altering whole body glucose and lipid metabolism strongly, and also suggests emerging roles for the activation of the bile acid receptors farnesoid x receptor (FXR) and G-protein coupled bile acid receptor (TGR5) in these improvements. The limitations of rodent studies and the current state of our understanding is reviewed and the potential effects of bile acids mediating the short-and long-term metabolic improvements after bariatric surgery is critically examined.

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Activation of Transmembrane Bile Acid Receptor TGR5 Modulates Pancreatic Islet α Cells to Promote Glucose Homeostasis

Cited by 107 publications

References 52 publications

Bile acid metabolism and signaling in liver disease and therapy

Bile acid metabolism and signaling in liver disease and therapy

TGR5, Not Only a Metabolic Regulator

Bile acids and bariatric surgery

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