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Target Concepts:
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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
TGR5 (also known as GPBAR1,
M-BAR
, BG37,
hGPCR19
, and AXOR 109) is a specific membrane G-protein-coupled receptor (GPCR) of bile acids (BAs). It has recently become an attractive therapeutic target for the prevention and/or the treatment of obesity and its highly associated Type II
diabetes
and metabolic syndrome. It has also been implicated in many other inflammatory, cardiovascular, neurological, and hepatic diseases. This review briefly describes the biological rationale of TGR5 as an attractive therapeutic target and summarizes some recent efforts on the development of TGR5 modulators.
...
PMID:TGR5 as a therapeutic target for treating obesity. 2018 Jul 62
The TGR5 receptor (or GP-BAR1, or
M-BAR
) was characterized ten years ago as the first identified G-coupled protein receptor specific for bile acids. TGR5 gene expression is widely distributed, including endocrine glands, adipocytes, muscles, immune organs, spinal cord, and the enteric nervous system. The effect of TGR5 activation depends on the tissue where it is expressed and the signalling cascade that it induces. Animal studies suggest that TGR5 activation influences energy production and thereby may be involved in obesity and
diabetes
. TGR5 activation also influences intestinal motility. This review provides an overview of TGR5-bile acid interactions in health as well as the possible involvement of TGR5 in human disease.
...
PMID:The bile acid TGR5 membrane receptor: from basic research to clinical application. 2441 85
Recent studies have revealed that bile acids (BAs) are not only facilitators of dietary lipid absorption but also important signaling molecules exerting multiple physiological functions. Some major signaling pathways involving the nuclear BAs receptor farnesoid X receptor and the G protein-coupled BAs receptor TGR5/
M-BAR
have been identified to be the targets of BAs. BAs regulate their own homeostasis via signaling pathways. BAs also affect diverse metabolic pathways including glucose metabolism, lipid metabolism and energy expenditure. This paper suggests the mechanism of controlling metabolism via BA signaling and demonstrates that BA signaling is an attractive therapeutic target of the metabolic syndrome.
World J
Diabetes
2016 Jul 10
PMID:Role of bile acids in the regulation of the metabolic pathways. 2743 95
Bile acids (BAs), the end products of cholesterol catabolism, are essential for the absorption of lipids and fat-soluble vitamins; but they have also emerged as novel signaling molecules that act as metabolic regulators. It has been well described that the enterohepatic circulation, a nuclear (FXR) and a cytoplasmic (TGR5/
M-BAR
) receptor aid in controlling hepatic bile acid synthesis. Modulating bile acid synthesis greatly impacts in metabolism, because these receptors also are implicated in glucose, lipid, and energy expenditure. Recent studies had revealed the way these receptors participate in regulating gluconeogenesis, peripheral insulin sensitivity, glycogen synthesis, glucagon like peptide 1 (GLP-1) and insulin secretion. Nowadays, it is demonstrated that enhancing bile acid signaling in the intestine contributes to the metabolic benefits of bile acid sequestrants and bariatric surgery on glucose homeostasis. This paper discusses the role of bile acid as regulators of glucose metabolism and their potential as therapeutic targets for
diabetes
.
...
PMID:The Role of Bile Acids in Glucose Metabolism and Their Relation with Diabetes. 2911 82
Bile acids (BAs), the end products of cholesterol catabolism, are essential for the absorption of lipids and fat-soluble vitamins; but they have also emerged as novel signaling molecules that act as metabolic regulators. It has been well described that the enterohe-patic circulation, a nuclear (FXR) and a cytoplasmic (TGR5/
M-BAR
) receptor aid in controlling hepatic bile acid synthesis. Modulating bile acid synthesis greatly impacts in metabolism, because these receptors also are implicated in glucose, lipid, and energy expenditure. Recent studies had revealed the way these receptors participate in regulating gluconeogenesis, peripheral insulin sensitivity, glycogen synthesis, glucagon like peptide 1 (GLP-1) and insulin secretion. Nowadays, it is demonstrated that enhancing bile acid signaling in the intestine contributes to the metabolic benefits of bile acid sequestrants and bariatric surgery on glucose homeos-tasis. This paper discusses the role of bile acid as regulators of glucose metabolism and their potential as therapeutic targets for
diabetes
.
...
PMID:The Role of Bile Acids in Glucose Metabolism and Their Relation with Diabetes. 3119 30
