Intra-islet GLP-1, but not CCK, is necessary for β-cell function in mouse and human islets

Souza, Arnaldo Henrique de; Tang, Jia-Yin; Yadev, Amanjot Kaur; Saghafi, Samuel T.; Kibbe, Carly R.; Linnemann, Amelia K.; Merrins, Matthew J.; Davis, Dawn Belt

doi:10.1038/s41598-020-59799-2

Cited by 38 publications

(32 citation statements)

References 55 publications

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“…In another study, SKIP-deficient mice improved glucose tolerance by increasing insulin and GLP-1 secretion [ 92 ], which suggests that SKIP deficiency in mice allow SphK1 to better regulate glucose tolerance. However, it remains to be established whether SKIP is acting only at the level of intestinal L cells or on the pancreatic β cell since it is already known that islet-derived GLP-1 is necessary for glucose-stimulated insulin secretion [ 93 ]. Not surprisingly, a consensus on the role of the SphK1/S1P axis in β-cells has not been reached.…”

Section: S1p Metabolism and Pancreatic β Cell Fatementioning

confidence: 99%

Sphingosine-1-Phosphate Metabolism in the Regulation of Obesity/Type 2 Diabetes

Guitton

Bandet

Mariko

et al. 2020

Cells

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Obesity is a pathophysiological condition where excess free fatty acids (FFA) target and promote the dysfunctioning of insulin sensitive tissues and of pancreatic β cells. This leads to the dysregulation of glucose homeostasis, which culminates in the onset of type 2 diabetes (T2D). FFA, which accumulate in these tissues, are metabolized as lipid derivatives such as ceramide, and the ectopic accumulation of the latter has been shown to lead to lipotoxicity. Ceramide is an active lipid that inhibits the insulin signaling pathway as well as inducing pancreatic β cell death. In mammals, ceramide is a key lipid intermediate for sphingolipid metabolism as is sphingosine-1-phosphate (S1P). S1P levels have also been associated with the development of obesity and T2D. In this review, the current knowledge on S1P metabolism in regulating insulin signaling in pancreatic β cell fate and in the regulation of feeding by the hypothalamus in the context of obesity and T2D is summarized. It demonstrates that S1P can display opposite effects on insulin sensitive tissues and pancreatic β cells, which depends on its origin or its degradation pathway.

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Section: S1p Metabolism and Pancreatic β Cell Fatementioning

confidence: 99%

Sphingosine-1-Phosphate Metabolism in the Regulation of Obesity/Type 2 Diabetes

Guitton

Bandet

Mariko

et al. 2020

Cells

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“…In a study using non-diabetic C57BL/6 J mice, researchers identified a subpopulation of GLP-1 expressing alpha cells in dispersed islets. 40 As these studies used isolated primary islet samples, it has been suggested that islet-isolation and culturing may cause sufficient islet stress to induce GLP-1. This stress-induced GLP-1 production may be a potential mechanism to prevent further islet cell damage.…”

Section: Evidence For Glp-1 Expression In Rodent Isletsmentioning

confidence: 99%

“…In a study using non-diabetic C57BL/6 J mice, researchers identified a subpopulation of GLP-1 expressing alpha cells in dispersed islets. 40 …”

Section: Evidence For Glp-1 Expression In Rodent Isletsmentioning

confidence: 99%

“… 41 Indeed, GCGR null mice have reduced fasting blood-glucose with no increased risk of hypoglycemia, whereas GCG null mice had a comparable metabolic phenotype to GCGR/GLP-1R double KO mice, 41 , 57 where both GCG null and GCGR/GLP-1R double KO mice exhibit mild fasting hyperglycemia and increases in insulin secretion. 40 , 41 In order to assess the specific effects of GLP-1 production in alpha cells, researchers have used genetic and pharmacological approaches to target PCSK1 and the GLP-1R.…”

Section: Glp-1 Receptor Signaling In the Endocrine Pancreasmentioning

confidence: 99%

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Evidence for the existence and potential roles of intra-islet glucagon-like peptide-1

Campbell

Johnson

Light

2021

Islets

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Glucagon-Like Peptide-1 (GLP-1) is an important peptide hormone secreted by L-cells in the gastrointestinal tract in response to nutrients. It is produced by the differential cleavage of the proglucagon peptide. GLP-1 elicits a wide variety of physiological responses in many tissues that contribute to metabolic homeostasis. For these reasons, therapies designed to either increase endogenous GLP-1 levels or introduce exogenous peptide mimetics are now widely used in the management of diabetes. In addition to GLP-1 production from L-cells, recent reports suggest that pancreatic islet alpha cells may also synthesize and secrete GLP-1. Intra-islet GLP-1 may therefore play an unappreciated role in islet health and glucose regulation, suggesting a potential functional paracrine role for islet-derived GLP-1. In this review, we assess the current literature from an isletcentric point-of-view to better understand the production, degradation, and actions of GLP-1 within the endocrine pancreas in rodents and humans. The relevance of intra-islet GLP-1 in human physiology is discussed regarding the potential role of intra-islet GLP-1 in islet health and dysfunction.

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“…This is classically known to be mediated by glucagon signaling ( 10 ), which activates human β-cell G protein-coupled receptors (GPCR) of class B, including glucagon receptor (GCGR), and glucagon-like peptide 1 receptor (GLP-1R), promoting insulin secretion by an increase in cyclic AMP and the recruitment of insulin granules ( 50 ). However, GLP-1 is also secreted by human α-cells ( 52 – 54 ) and necessary for insulin secretion in human islets, as GLP-1R antagonism blunted glucose stimulated insulin secretion (GSIS) in vitro ( 54 ). Moreover, GLP-1 can elicit synchronous intracellular calcium oscillations in human whole islets ( 55 ), suggesting an important role of this hormone and the location of α-cells within the islet to obtain pulsatile and synchronized insulin secretion.…”

Section: Human Islet Architecture Favors Heterologous Contacts Betweementioning

confidence: 99%

Cell Heterogeneity and Paracrine Interactions in Human Islet Function: A Perspective Focused in β-Cell Regeneration Strategies

2021

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The β-cell regeneration field has shown a strong knowledge boost in the last 10 years. Pluripotent stem cell differentiation and direct reprogramming from other adult cell types are becoming more tangible long-term diabetes therapies. Newly generated β-like-cells consistently show hallmarks of native β-cells and can restore normoglycemia in diabetic mice in virtually all recent studies. Nonetheless, these cells still show important compromises in insulin secretion, cell metabolism, electrical activity, and overall survival, perhaps due to a lack of signal integration from other islet cells. Mounting data suggest that diabetes is not only a β-cell disease, as the other islet cell types also contribute to its physiopathology. Here, we present an update on the most recent studies of islet cell heterogeneity and paracrine interactions in the context of restoring an integrated islet function to improve β-cell replacement therapies.

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Intra-islet GLP-1, but not CCK, is necessary for β-cell function in mouse and human islets

Cited by 38 publications

References 55 publications

Sphingosine-1-Phosphate Metabolism in the Regulation of Obesity/Type 2 Diabetes

Sphingosine-1-Phosphate Metabolism in the Regulation of Obesity/Type 2 Diabetes

Evidence for the existence and potential roles of intra-islet glucagon-like peptide-1

Cell Heterogeneity and Paracrine Interactions in Human Islet Function: A Perspective Focused in β-Cell Regeneration Strategies

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