MicroRNAs 103 and 107 regulate insulin sensitivity

Trajkovski, Mirko; Hausser, Jean; Soutschek, Jiirgen; Bhat, Bal; Akinc, Akin; Zavolan, Mihaela; Heim, Markus H.; Stoffel, Markus

doi:10.1038/nature10112

Cited by 877 publications

(873 citation statements)

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“…Both miR‐143 and miR‐103 have been described as regulators of glucose homeostasis. Trajkovski et al [2011] demonstrated an up‐regulation of miR‐103 and miR‐107 in obese mice. In addition, the authors showed gain of miR‐103/107 function in liver or fat to result in impaired glucose homeostasis, and identified caveolin‐1 (CAV‐1) as target of these two miRNAs [Trajkovski et al, 2011].…”

Section: Discussionmentioning

confidence: 99%

“…Trajkovski et al [2011] demonstrated an up‐regulation of miR‐103 and miR‐107 in obese mice. In addition, the authors showed gain of miR‐103/107 function in liver or fat to result in impaired glucose homeostasis, and identified caveolin‐1 (CAV‐1) as target of these two miRNAs [Trajkovski et al, 2011]. Similarly, conditional over‐expression of miR‐143 in mice has been shown to impair glucose metabolism and insulin‐stimulated AKT activation in the liver of these animals [Jordan et al, 2011].…”

Section: Discussionmentioning

confidence: 99%

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N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

Holik

Lieder

Kretschy

et al. 2016

J of Cellular Biochemistry

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Advanced glycation endproducts, formed in vivo, but also by the Maillard reaction upon thermal treatment of foods, have been associated with the progression of pathological conditions such as diabetes mellitus. In addition to the accumulation with age, exogenous AGEs are introduced into the circulation from dietary sources. In this study, we investigated the effects of addition of free Nϵ‐carboxymethyllysine (CML), a well‐characterized product of the Maillard reaction, on adipogenesis in 3T3‐L1 preadipocytes. Treatment with 5, 50, or 500 μM CML resulted in increased lipid accumulation to similar extents, by 11.5 ± 12.6%, 12.9 ± 8.6%, and 12.8 ± 8.5%, respectively. Long‐term treatment with 500 μM CML during adipogenesis resulted in increases in miR‐103 and miR‐143 levels, two miRNAs described to be involved in impaired glucose homeostasis and increased lipid accumulation. Furthermore, the expression of genes associated with these miRNAs, consisting of Akt1, PI3k, and Cav1 was regulated by CML. Short‐term treatment of mature 3T3‐L1 adipocytes with CML resulted in decreased basal glucose uptake. These results, indicate that the addition of protein‐free CML to 3T3‐L1 cells influence parameters associated with adipogenesis and glucose homeostasis at transcriptional, and functional level; this indicates that free CML derived from exogenous sources, in addition to protein‐bound CML may be relevant in this context. J. Cell. Biochem. 117: 2413–2422, 2016. © 2016 The Authors. Journal of Cellular Biochemistry Published by Wiley Periodicals, Inc.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

Holik

Lieder

Kretschy

et al. 2016

J of Cellular Biochemistry

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“…1). 105 The inhibition of miR-21, miR-34a, or miR-146a with antisense molecules in b-cells treated with IL-1b improves glucose-induced insulin secretion (Fig. 1).…”

Section: Nct02046395mentioning

confidence: 95%

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

et al. 2017

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Epigenetics is involved in the altered expression of gene networks that underlie insulin resistance and insufficiency. Major genes controlling b-cell differentiation and function, such as PAX4, PDX1, and GLP1 receptor, are epigenetically controlled. Epigenetics can cause insulin resistance through immunomediated pro-inflammatory actions related to several factors, such as NF-kB, osteopontin, and Toll-like receptors. Hereafter, we provide a critical and comprehensive summary on this topic with a particular emphasis on translational and clinical aspects. We discuss the effect of epigenetics on b-cell regeneration for cell replacement therapy, the emerging bioinformatics approaches for analyzing the epigenetic contribution to type 2 diabetes mellitus (T2DM), the epigenetic core of the transgenerational inheritance hypothesis in T2DM, and the epigenetic clinical trials on T2DM. Therefore, prevention or reversion of the epigenetic changes occurring during T2DM development may reduce the individual and societal burden of the disease.

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“…In breast cancer, miR-378* upregulation results in an increase in cell proliferation and lactate production, and a repression of tricarboxylic acid cycle and oxygen consumption, indicating that miR-378* is able to mediate metabolic shift in cancer cells 20 . It has also been reported that hepatic miR-378/378* expression is dysregulated in a rat model of type 2 diabetes and obese mouse models, including genetic ob/ob mice and mice fed a high-fat diet 15,21,22 . However, whether and how miR-378 or miR-378* plays a regulatory role in hepatic glucose and lipid metabolism remains unclear.…”

mentioning

confidence: 98%

“…It has been shown that miRNA could represent another crucial regulatory layer in regulating insulin action 13,14 . miR-103/ 107 and let-7 mainly regulate insulin signalling in peripheral tissues such as adipose tissue and skeletal muscle by targeting caveolin-1 and IR/IRS2, respectively 15,16 . miR-143 and miR-34a affect hepatic insulin signalling by targeting oxysterol-bindingprotein-related protein 8 (ORP8) and Sirtuin 1 (SIRT1), respectively 17,18 .…”

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confidence: 99%

Hepatic miR-378 targets p110α and controls glucose and lipid homeostasis by modulating hepatic insulin signalling

et al. 2014

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Understanding the regulation of insulin signalling in tissues provides insights into carbohydrate and lipid metabolism in physiology and disease. Here we show that hepatic miR-378/378* expression changes in response to fasting and refeeding in mice. Mice overexpressing hepatic miR-378/378* exhibit pure hepatic insulin resistance. miR-378 inhibits hepatic insulin signalling through targeting p110a, a subunit of PI3K and hence a critical component of insulin signalling. Knockdown of hepatic p110a mimics the effect of miR-378, while restoration of p110a expression abolishes the action of miR-378 on insulin signalling as well as its systemic effects on glucose and lipid homeostasis. miR-378/378* knockout mice display hypoglycemia and increased hepatic triglyceride level with enhanced insulin sensitivity. Inhibition of hepatic p110a in miR-378/378* knockout mice corrects the abnormal glucose tolerance. Finally, we show that overexpression of hepatic miR-378/378* ameliorates hepatic steatosis in ob/ob mice without exacerbating hyperglycemia. Our findings establish fasting-responsive miR-378 as a critical regulator of hepatic insulin signalling.

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MicroRNAs 103 and 107 regulate insulin sensitivity

Cited by 877 publications

References 28 publications

N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

Hepatic miR-378 targets p110α and controls glucose and lipid homeostasis by modulating hepatic insulin signalling

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MicroRNAs 103 and 107 regulate insulin sensitivity

Cited by 877 publications

References 28 publications

Nϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

Nϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

Clinical relevance of epigenetics in the onset and management of type 2 diabetes mellitus

Hepatic miR-378 targets p110α and controls glucose and lipid homeostasis by modulating hepatic insulin signalling

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N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells

N^ϵ‐Carboxymethyllysine Increases the Expression of miR‐103/143 and Enhances Lipid Accumulation in 3T3‐L1 Cells