Insulin secretion-independent effects of GLP-1 on canine liver glucose metabolism do not involve portal vein GLP-1 receptors

Dardevet, Dominique; Moore, Mary Courtney; DiCostanzo, Catherine A.; Farmer, Ben; Neal, Doss W.; Snead, Wanda L.; Lautz, Margaret; Cherrington, Alan D.

doi:10.1152/ajpgi.00121.2005

Cited by 46 publications

(50 citation statements)

References 51 publications

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“…This was further confirmed in dogs (34) but remains contradictory (35,36), depending on the model studied. Balkan et al (37) showed that portal GLP-1 increased insulin secretion through a mechanism that requires the autonomic nervous system to transmit the glucose signal to the pancreas.…”

Section: Glp-1r-dependent Actions Of Oligofructosementioning

confidence: 68%

Improvement of Glucose Tolerance and Hepatic Insulin Sensitivity by Oligofructose Requires a Functional Glucagon-Like Peptide 1 Receptor

et al. 2006

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Nondigestible fermentable dietary fibers such as oligofructose (OFS) exert an antidiabetic effect and increase the secretion of glucagon-like peptide 1 (GLP-1). To determine the importance of GLP-1 receptor-dependent mechanisms for the actions of OFS, we studied high-fat-fed diabetic mice treated with OFS for 4 weeks in the presence or absence of the GLP-1 receptor antagonist exendin 9-39 (Ex-9). OFS improved glucose tolerance, fasting blood glucose, glucose-stimulated insulin secretion, and insulinsensitive hepatic glucose production and reduced body weight gain. Ex-9 totally prevented the beneficial effects of OFS. Furthermore, GLP-1 receptor knockout mice (GLP-1R ؊/؊ ) were completely insensitive to the antidiabetic actions of OFS. At the molecular level, the effects of OFS on endogenous glucose production correlated with changes of hepatic IRS (insulin receptor substrate)-2 and Akt phosphorylation in an Ex-9 -dependent manner. As inflammation is associated with diabetes and obesity, we quantified nuclear factor-B and inhibitor of B kinase ␤ in the liver. The activity of both intracellular inflammatory effectors was reduced by OFS but, importantly, this effect could not be reverted by Ex-9. In summary, our data show that the antidiabetic actions of OFS require a functional GLP-1 receptor. These findings highlight the therapeutic potential of enhancing endogenous GLP-1 secretion for the treatment of type 2 diabetes. Diabetes 55: 1484 -1490, 2006 T he recent growing occurrence of the metabolic diseases diabetes and obesity in Westernized countries is associated with changes in feeding habits, where fat constitutes an increasing percentage of total caloric intake (1). The central and early pathological consequences of high-fat feeding includes the development of insulin resistance (2,3) and ␤-cell dysfunction. The mechanisms through which these functions are impaired are not completely identified but could be related to inflammation (4,5), lipotoxicity (2,6), and chronic hyperinsulinemia (7,8) primarily affecting the liver (9) and the muscles (10). Therapeutic strategies for reversing these defects involve pharmacological or nutritional approaches. Whereas the former aims at targeting tissues and molecules directly involved in insulin action or secretion, nutritional approaches aim at stimulating endogenous physiological functions that secondarily regulate energy homeostasis.Glucagon-like peptide 1 (GLP-1) amide (7-36) is an enteroendocrine-derived peptide secreted in response to nutrient ingestion. GLP-1 stimulates insulin secretion in a glucose-dependent manner (11). Clinical trials showed that continuous GLP-1 treatment for 6 weeks improved glycemic control and body weight and reduced food intake (12). Consequently, therapeutic strategies aimed at stimulating GLP-1 secretion represent alternative approaches to pharmacological approaches delivering exogenous GLP-1.Human studies have demonstrated that oligofructose (OFS), a nondigestible fermentable carbohydrate, lowers plasma lipid concentrations (13), incr...

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Section: Glp-1r-dependent Actions Of Oligofructosementioning

confidence: 68%

Improvement of Glucose Tolerance and Hepatic Insulin Sensitivity by Oligofructose Requires a Functional Glucagon-Like Peptide 1 Receptor

et al. 2006

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“…Although there is little meaningful evidence indicating expression of the GLP-1R in the liver (24,31), there are several reports of GLP-1-mediated regulation of hepatic glucose production in a manner separate from its ability to suppress glucagon release and, intriguingly, independent of insulin (32)(33)(34)(35). We therefore measured EGP rates to investigate whether a GLP-1R-dependent mechanism accounts for regulating glycemia in Gcgr 2/2 animals.…”

Section: Glp-1r Ablation Increases Egp In Insulinopenic Gcgr-null Micementioning

confidence: 99%

Absence of Glucagon and Insulin Action Reveals a Role for the GLP-1 Receptor in Endogenous Glucose Production

et al. 2014

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The absence of insulin results in oscillating hyperglycemia and ketoacidosis in type 1 diabetes. Remarkably, mice genetically deficient in the glucagon receptor (Gcgr) are refractory to the pathophysiological symptoms of insulin deficiency, and therefore, studies interrogating this unique model may uncover metabolic regulatory mechanisms that are independent of insulin. A significant feature of Gcgr-null mice is the high circulating concentrations of GLP-1. Hence, the objective of this report was to investigate potential noninsulinotropic roles of GLP-1 in mice where GCGR signaling is inactivated. For these studies, pancreatic β-cells were chemically destroyed by streptozotocin (STZ) in Gcgr−/−:Glp-1r−/− mice and in Glp-1r−/− animals that were subsequently treated with a high-affinity GCGR antagonist antibody that recapitulates the physiological state of Gcgr ablation. Loss of GLP-1 action substantially worsened nonfasting glucose concentrations and glucose tolerance in mice deficient in, and undergoing pharmacological inhibition of, the GCGR. Further, lack of the Glp-1r in STZ-treated Gcgr−/− mice elevated rates of endogenous glucose production, likely accounting for the differences in glucose homeostasis. These results support the emerging hypothesis that non–β-cell actions of GLP-1 analogs may improve metabolic control in patients with insulinopenic diabetes.

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“…First, GLP1 acts on the liver to decrease endogenous glucose output [18]. As GLP1 is secreted by the L cells of the gut, the postprandial portal vein concentrations of GLP1 are twice that of the systemic circulation [19]. Thus, GLP1 secretion may indeed be reduced in carriers of the T allele at rs7903146, but this is not detectable at the levels measurable in the systemic circulation.…”

Section: Tcf7l2 and Insulin Actionmentioning

confidence: 99%

Translating TCF7L2: from gene to function

Pearson

2009

Diabetologia

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Insulin secretion-independent effects of GLP-1 on canine liver glucose metabolism do not involve portal vein GLP-1 receptors

Cited by 46 publications

References 51 publications

Improvement of Glucose Tolerance and Hepatic Insulin Sensitivity by Oligofructose Requires a Functional Glucagon-Like Peptide 1 Receptor

Improvement of Glucose Tolerance and Hepatic Insulin Sensitivity by Oligofructose Requires a Functional Glucagon-Like Peptide 1 Receptor

Absence of Glucagon and Insulin Action Reveals a Role for the GLP-1 Receptor in Endogenous Glucose Production

Translating TCF7L2: from gene to function

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