Chronic and Transient Hyperglycemia Induces Changes in the Expression Patterns of IL6 and ADIPOQ Genes and Their Associated Epigenetic Modifications in Differentiating Human Visceral Adipocytes

Wróblewski, Adam; Strycharz, Justyna; Świderska, Ewa; Balcerczyk, Aneta; Szemraj, Janusz; Drzewoski, Józef; Śliwińska, Agnieszka

doi:10.3390/ijms22136964

Cited by 11 publications

(13 citation statements)

References 63 publications

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“…Visceral adipose tissue plays an important role in the development of T2DM, as well as NAFLD, by producing cytokines and activating the NF-κB pathway [226,227]. Increased gluconeogenesis and attenuation of insulin sensitivity are observed due to the activity of protein kinase Cε, fetuin A/B, retinol-binding protein 4, or selenoprotein P. T2DM patients typically demonstrate higher hepatic fat content and inflammation.…”

Section: T2dmmentioning

confidence: 99%

The Interplay between Insulin Resistance, Inflammation, Oxidative Stress, Base Excision Repair and Metabolic Syndrome in Nonalcoholic Fatty Liver Disease

Ziółkowska

Binienda

Jabłkowski

et al. 2021

IJMS

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One of the most common chronic liver disorders, affecting mainly people in Western countries, is nonalcoholic fatty liver disease (NAFLD). Unfortunately, its pathophysiological mechanism is not fully understood, and no dedicated treatment is available. Simple steatosis can lead to nonalcoholic steatohepatitis and even to fibrosis, cancer, and cirrhosis of the liver. NAFLD very often occurs in parallel with type 2 diabetes mellitus and in obese people. Furthermore, it is much more likely to develop in patients with metabolic syndrome (MS), whose criteria include abdominal obesity, elevated blood triacylglycerol level, reduced high-density lipoprotein cholesterol level, increased blood pressure, and high fasting glucose. An important phenomenon in MS is also insulin resistance (IR), which is very common in NAFLD. Liver IR and NAFLD development are linked through an interaction between the accumulation of free fatty acids, hepatic inflammation, and increased oxidative stress. The liver is particularly exposed to elevated levels of reactive oxygen species due to a large number of mitochondria in hepatocytes. In these organelles, the main DNA repair pathway is base excision repair (BER). The present article will illustrate how impairment of BER may be related to the development of NAFLD.

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Section: T2dmmentioning

confidence: 99%

The Interplay between Insulin Resistance, Inflammation, Oxidative Stress, Base Excision Repair and Metabolic Syndrome in Nonalcoholic Fatty Liver Disease

Ziółkowska

Binienda

Jabłkowski

et al. 2021

IJMS

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“…H3K4me3 enhancement was observed in proinflammatory genes ( MCP-1 and TNF- α), profibrotic genes ( TGF-β1 and collagen III ), and histone-modifying enzyme ( SET1 and BRG1 ) in an ischemia-reperfusion injury animal model ( Naito et al, 2009 ). In IR state, H3K4me3 and H3K9/14ac were reduced in adipose tissue ( Figure 2 ) ( Wróblewski et al, 2021 ). The enhancement of the H3K4me3 level promoted PEPCK expression, which might contribute to hyperglycemia and anorexia in mandarin fish fed on carbohydrate-rich diets ( You et al, 2020 ).…”

Section: Histone Methylation In Type 2 Diabetesmentioning

confidence: 99%

Epigenetics and Beyond: Targeting Histone Methylation to Treat Type 2 Diabetes Mellitus

Yang

Luan

et al. 2022

Front. Pharmacol.

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Diabetes mellitus is a global public health challenge with high morbidity. Type 2 diabetes mellitus (T2DM) accounts for 90% of the global prevalence of diabetes. T2DM is featured by a combination of defective insulin secretion by pancreatic β-cells and the inability of insulin-sensitive tissues to respond appropriately to insulin. However, the pathogenesis of this disease is complicated by genetic and environmental factors, which needs further study. Numerous studies have demonstrated an epigenetic influence on the course of this disease via altering the expression of downstream diabetes-related proteins. Further studies in the field of epigenetics can help to elucidate the mechanisms and identify appropriate treatments. Histone methylation is defined as a common histone mark by adding a methyl group (-CH3) onto a lysine or arginine residue, which can alter the expression of downstream proteins and affect cellular processes. Thus, in tthis study will discuss types and functions of histone methylation and its role in T2DM wilsed. We will review the involvement of histone methyltransferases and histone demethylases in the progression of T2DM and analyze epigenetic-based therapies. We will also discuss the potential application of histone methylation modification as targets for the treatment of T2DM.

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“…IRS binds to the kinase regulatory subunit of PI3K (PI3K-R), the central molecule of the pathway. This, in turn, causes activation of the catalytic PI3K (PI3K-C) subunit that converts phosphatidylinositol (4,5)-biphosphate (PIP2) to phosphatidylinositol (3,4,5)-triphosphate (PIP3) [8]. The main insulin pathway regulator, PTEN, (phosphatase and tensin homolog), inhibits further signal transduction by PIP3 dephosphorylation [10].…”

Section: Introductionmentioning

confidence: 99%

“…VAT surrounds the abdominal viscera in the mesentery and omentum. It produces and releases a large number of adipocytokines that influence both VAT and other tissues [ 2 , 3 ]. It is suggested that hyperglycemia (HG), a typical marker of diabetes causing nutrient stress, may alter the production of adipocytokines and change biochemical pathways including insulin signaling [ 3 , 4 ].…”

Section: Introductionmentioning

confidence: 99%

“…It produces and releases a large number of adipocytokines that influence both VAT and other tissues [ 2 , 3 ]. It is suggested that hyperglycemia (HG), a typical marker of diabetes causing nutrient stress, may alter the production of adipocytokines and change biochemical pathways including insulin signaling [ 3 , 4 ]. It was demonstrated that during chronic HG (CHG), adipocytes (Ads) are not capable of storing energy excess and the process of new Ads formation, adipogenesis (ADG), is interrupted [ 5 ].…”

Section: Introductionmentioning

confidence: 99%

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Chronic and Intermittent Hyperglycemia Modulates Expression of Key Molecules of PI3K/AKT Pathway in Differentiating Human Visceral Adipocytes

Świderska

Strycharz

Wróblewski

et al. 2021

IJMS

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Background: Due to its prominence in the regulation of metabolism and inflammation, adipose tissue is a major target to investigate alterations in insulin action. This hormone activates PI3K/AKT pathway which is essential for glucose homeostasis, cell differentiation, and proliferation in insulin-sensitive tissues, like adipose tissue. The aim of this work was to evaluate the impact of chronic and intermittent high glucose on the expression of biomolecules of insulin signaling pathway during the differentiation and maturation of human visceral preadipocytes. Methods:Human visceral preadipocytes (HPA-V) cells were treated with high glucose (30mM)during the proliferation and/or differentiation and/or maturation stage. The level of mRNA (by Real-Time PCR) and protein (by Elisa tests) expression of IRS1, PI3K, PTEN, AKT2, and GLUT4 was examined after each culture stage. Furthermore, we investigated whether miR-29a-3p, miR-143-3p, miR-152-3p, miR-186-5p, miR-370-3p, and miR-374b-5p may affect the expression of biomolecules of the insulin signaling pathway. Results: Both chronic and intermittent hyperglycemia affects insulin signaling in visceral pre/adipocytes by upregulation of analyzed PI3K/AKT pathway molecules. Both mRNA and protein expression level is more dependent on stage-specific events than the length of the period of high glucose exposure. What is more, miRs expression changes seem to be involved in PI3K/AKT expression regulation in response to hyperglycemic stimulation.

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Chronic and Transient Hyperglycemia Induces Changes in the Expression Patterns of IL6 and ADIPOQ Genes and Their Associated Epigenetic Modifications in Differentiating Human Visceral Adipocytes

Cited by 11 publications

References 63 publications

The Interplay between Insulin Resistance, Inflammation, Oxidative Stress, Base Excision Repair and Metabolic Syndrome in Nonalcoholic Fatty Liver Disease

The Interplay between Insulin Resistance, Inflammation, Oxidative Stress, Base Excision Repair and Metabolic Syndrome in Nonalcoholic Fatty Liver Disease

Epigenetics and Beyond: Targeting Histone Methylation to Treat Type 2 Diabetes Mellitus

Chronic and Intermittent Hyperglycemia Modulates Expression of Key Molecules of PI3K/AKT Pathway in Differentiating Human Visceral Adipocytes

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