Nutrient regulation of pancreatic β-cell proliferation

Moullé, Valentine S.; Ghislain, Julien; Poitout, Vincent

doi:10.1016/j.biochi.2017.09.017

Cited by 32 publications

(29 citation statements)

References 69 publications

(80 reference statements)

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“…After cross the cell membrane via CD36, fatty acids are activated by fatty acyl-CoA synthetase to generate acyl-CoA which undergoes β-oxidation. Acyl-CoA also enters the glycerolipid/free fatty acid cycle or participates in sphingolipid synthesis to generate metabolites such as ceramides and sphingosine-1 phosphate ( 19 ). The binding of long chain FFA to CD36 stimulates the tyrosine phosphorylation of downstream proteins, including proinflammatory response associated with diabetes ( 20 ).…”

Section: Fatty Acids and Lipotoxicitymentioning

confidence: 99%

Fatty Acid-Induced Lipotoxicity in Pancreatic Beta-Cells During Development of Type 2 Diabetes

et al. 2018

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Type 2 diabetes is caused by chronic insulin resistance and progressive decline in beta-cell function. Optimal beta-cell function and mass is essential for glucose homeostasis and beta-cell impairment leads to the development of diabetes. Elevated levels of circulating fatty acids (FAs) and disturbances in lipid metabolism regulation are associated with obesity, and they are major factors influencing the increase in the incidence of type 2 diabetes. Chronic free FA (FFA) treatment induces insulin resistance and beta-cell dysfunction; therefore, reduction of elevated plasma FFA levels might be an important therapeutic target in obesity and type 2 diabetes. Lipid signals via receptors, and intracellular mechanisms are involved in FFA-induced apoptosis. In this paper, we discuss lipid actions in beta cells, including effects on metabolic pathways and stress responses, to help further understand the molecular mechanisms of lipotoxicity-induced type 2 diabetes.

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Section: Fatty Acids and Lipotoxicitymentioning

confidence: 99%

Fatty Acid-Induced Lipotoxicity in Pancreatic Beta-Cells During Development of Type 2 Diabetes

et al. 2018

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“…Upon entry into β-cells, FFAs either undergo β-oxidation, or they will be directed to enter the glycerolipid/ FFA cycle to generate triacylglycerol (TAG) which promote lipid droplet (LD) formation or, alternatively, participate in sphingolipid synthesis to generate a number of different metabolites, such as ceramide 18 . To address whether VEGF-B mediated fatty acid transport machinery operate in pancreatic islets and particularly to what extent VEGF-B is involved in β-cell fatty acid uptake, we measured islet ceramide content and Plin2 expression (a marker for LD formation) as indicators for islet fatty acid uptake.…”

Section: β-Cell Specific Vegfb Deficiency Does Not Affect Glucose Hommentioning

confidence: 99%

VEGF-B ablation in pancreatic β-cells upregulates insulin expression without affecting glucose homeostasis or islet lipid uptake

Ning

Jensen

et al. 2020

Sci Rep

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Type 2 diabetes mellitus (T2DM) affects millions of people and is linked with obesity and lipid accumulation in peripheral tissues. increased lipid handling and lipotoxicity in insulin producing β-cells may contribute to β-cell dysfunction in T2DM. The vascular endothelial growth factor (VEGF)-B regulates uptake and transcytosis of long-chain fatty acids over the endothelium to tissues such as heart and skeletal muscle. Systemic inhibition of VeGf-B signaling prevents tissue lipid accumulation, improves insulin sensitivity and glucose tolerance, as well as reduces pancreatic islet triglyceride content, under T2DM conditions. To date, the role of local VEGF-B signaling in pancreatic islet physiology and in the regulation of fatty acid trans-endothelial transport in pancreatic islet is unknown. to address these questions, we have generated a mouse strain where VeGf-B is selectively depleted in β-cells, and assessed glucose homeostasis, β-cell function and islet lipid content under both normal and high-fat diet feeding conditions. We found that Vegfb was ubiquitously expressed throughout the pancreas, and that β-cell Vegfb deletion resulted in increased insulin gene expression. However, glucose homeostasis and islet lipid uptake remained unaffected by β-cell VEGF-B deficiency.

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“…72,73 There are several reports indicating that cultures of rat islets with FA, and the infusion of FA over 2-4 days in rats, increases beta cell proliferation. To support the increase demands of insulin secretion for a sustained period, the expansion of beta cell mass becomes critical.…”

Section: The Regulation Of Beta Cell Proliferation By Famentioning

confidence: 99%

“…While it is well accepted that glucose stimulates beta cell proliferation, there have been conflicting data about whether FA directly increase beta cell proliferation. 72,73 There are several reports indicating that cultures of rat islets with FA, and the infusion of FA over 2-4 days in rats, increases beta cell proliferation. [72][73][74][75] The activation of mammalian target of rapamycin complex 1 (mTORC1) has been implicated in supporting proliferation by FA in one study of rat beta cells.…”

Section: The Regulation Of Beta Cell Proliferation By Famentioning

confidence: 99%

“…72,73 There are several reports indicating that cultures of rat islets with FA, and the infusion of FA over 2-4 days in rats, increases beta cell proliferation. [72][73][74][75] The activation of mammalian target of rapamycin complex 1 (mTORC1) has been implicated in supporting proliferation by FA in one study of rat beta cells. 76 However, in another report, fatty acid infusion blocked glucose-induced proliferation of beta cells in mice.…”

Section: The Regulation Of Beta Cell Proliferation By Famentioning

confidence: 99%

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Connecting pancreatic islet lipid metabolism with insulin secretion and the development of type 2 diabetes

Imai

Cousins

Liu

et al. 2019

Annals of the New York Academy of Sciences

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Obesity is the major contributing factor for the increased prevalence of type 2 diabetes (T2D) in recent years. Sustained positive influx of lipids is considered to be a precipitating factor for beta cell dysfunction and serves as a connection between obesity and T2D. Importantly, fatty acids (FA), a key building block of lipids, are a double‐edged sword for beta cells. FA acutely increase glucose‐stimulated insulin secretion through cell‐surface receptor and intracellular pathways. However, chronic exposure to FA, combined with elevated glucose, impair the viability and function of beta cells in vitro and in animal models of obesity (glucolipotoxicity), providing an experimental basis for the propensity of beta cell demise under obesity in humans. To better understand the two‐sided relationship between lipids and beta cells, we present a current view of acute and chronic handling of lipids by beta cells and implications for beta cell function and health. We also discuss an emerging role for lipid droplets (LD) in the dynamic regulation of lipid metabolism in beta cells and insulin secretion, along with a potential role for LD under nutritional stress in beta cells, and incorporate recent advancement in the field of lipid droplet biology.

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Nutrient regulation of pancreatic β-cell proliferation

Cited by 32 publications

References 69 publications

Fatty Acid-Induced Lipotoxicity in Pancreatic Beta-Cells During Development of Type 2 Diabetes

Fatty Acid-Induced Lipotoxicity in Pancreatic Beta-Cells During Development of Type 2 Diabetes

VEGF-B ablation in pancreatic β-cells upregulates insulin expression without affecting glucose homeostasis or islet lipid uptake

Connecting pancreatic islet lipid metabolism with insulin secretion and the development of type 2 diabetes

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