The expression of adipogenic genes is decreased in obesity and diabetes mellitus

Nadler, Samuel T.; Stoehr, Jonathan P.; Schueler, Kathryn L.; Tanimoto, Gene; Yandell, Brian S.; Attie, Alan D.

doi:10.1073/pnas.97.21.11371

Cited by 349 publications

(281 citation statements)

References 42 publications

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“…Recently, Moraes et al (2003) reported, using oligonucleotide micro-array analysis, that approximately 500 genes were differentially expressed in adipose tissue of DIO-C57BL/6J mice. Interestingly, genes coding markers for adipocyte differentiation are down-regulated whereas there is no variation in the expression of the main adipogenic transcription factors, contrasting with the results obtained with adipose tissue from leptin-deficient obese ob/ob mice (Nadler et al, 2000). This latter observation shows that the gene expression profile in adipose tissue of genetic models of obesity, such as the ob/ob mice, does not reflect the profile obtained with obesity induced by overfeeding, reinforcing the interest of these rodent models of diet-induced obesity.…”

Section: I3 Adipose Tissue and Calorie Restrictioncontrasting

confidence: 89%

Genes involved in obesity: Adipocytes, brain and microflora

et al. 2006

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Obesity and obesity-related disorders such as cardiovascular diseases and metabolic abnormalities including hypertension, hyperinsulinemia, insulin-resistance and type 2 diabetes, are among the most pressing problems in the industrialized world (Friedman, 2003;Kannel et al., 1991 (Reitman et al., 2000), demonstrating that normal adipose tissue development and function is critical for metabolic homeostasis.Obesity results from complex interactions between genes and environmental factors such as diet, food components and/or way of life, and can be viewed as an energy storage disorder in which weight gain results from an energy imbalance (i.e. energy input exceeding output), with most of the excess calories stored as triglycerides in adipose tissue (Smith et al., 2006). Therefore a great deal of attention has focused on the mechanisms controlling food intake and adipose mass, and is of considerable importance for public health and clinical medicine.In this review, we prevalently highlight the complex relationships existing between the white adipose tissue, the central nervous system, the endogenous microbiota, and nutrition. Throughout, we emphasize the most recent findings in the field and consider how it shapes the past knowledge and forecasts the future of research on metabolic disorders, such as obesity.

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Section: I3 Adipose Tissue and Calorie Restrictioncontrasting

confidence: 89%

Genes involved in obesity: Adipocytes, brain and microflora

et al. 2006

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“…On the other hand, the adipocytes of obese subjects had decreased expression of genes encoding energy pathway/electron transport. The overall gene expression profile of these isolated human adipocytes is similar to that of the adipose tissue of dietinduced obese C57BL/6J mice [14] and that of genetically obese (ob/ob) mice with a mutation in the gene encoding leptin on different strain backgrounds [9,12,13]. Further studies are required to investigate the relative contributions of genetic background and dietary intake to the differential adipocyte gene expression in obese people.…”

Section: Discussionmentioning

confidence: 85%

“…The role of adipose tissue in the aetiology of obesity [7], as well as its pathophysiological consequences [8], is increasingly being recognised. A few studies in rodents and humans have used microarray gene expression profiling of whole adipose tissue to investigate its role in obesity [9,10]. Unfortunately, the heterogeneous cell composition of adipose tissue does not provide information on the potentially diverse functions of the specific cell types of the tissue.…”

Section: Introductionmentioning

confidence: 99%

Microarray profiling of isolated abdominal subcutaneous adipocytes from obese vs non-obese Pima Indians: increased expression of inflammation-related genes

et al. 2005

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Aims/hypothesis: Obesity increases the risk of developing major diseases such as diabetes and cardiovascular disease. Adipose tissue, particularly adipocytes, may play a major role in the development of obesity and its comorbidities. The aim of this study was to characterise, in adipocytes from obese people, the most differentially expressed genes that might be relevant to the development of obesity. Methods: We carried out microarray gene profiling of isolated abdominal subcutaneous adipocytes from 20 non-obese (BMI 25±3 kg/m 2 ) and 19 obese (BMI 55± 8 kg/m 2 ) non-diabetic Pima Indians using Affymetrix HG-U95 GeneChip arrays. After data analyses, we measured the transcript levels of selected genes based on their biological functions and chromosomal positions using quantitative real-time PCR. Results: The most differentially expressed genes in adipocytes of obese individuals consisted of 433 upregulated and 244 downregulated genes. Of these, 410 genes could be classified into 20 functional Gene Ontology categories. The analyses indicated that the inflammation/ immune response category was over-represented, and that most inflammation-related genes were upregulated in adipocytes of obese subjects. Quantitative real-time PCR confirmed the transcriptional upregulation of representative inflammation-related genes (CCL2 and CCL3) encoding the chemokines monocyte chemoattractant protein-1 and macrophage inflammatory protein 1α. The differential expression levels of eight positional candidate genes, including inflammation-related THY1 and C1QTNF5, were also confirmed. These genes are located on chromosome 11q22-q24, a region with linkage to obesity in the Pima Indians. Conclusions/interpretation: This study provides evidence supporting the active role of mature adipocytes in obesityrelated inflammation. It also provides potential candidate genes for susceptibility to obesity.

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“…These analyses revealed that four such defined sets of genes were downregulated (p<0.05) in livers from HFD Il6 −/− compared with control mice. These included 'Nadler Obesity Hyperglycaemia' [29] (ESM Fig. 5).…”

Section: Resultsmentioning

confidence: 99%

“…This defined gene set included genes involved in signal transduction and energy metabolism, as well as genes not previously examined in the context of diabetes. Nadler et al [29] demonstrated that a decrease in expression of this gene set was associated with obesity and hyperglycaemia. In addition, the other related sets of genes that were coordinately downregulated were genes associated with the tricarboxylic acid cycle (Fig.…”

Section: Resultsmentioning

confidence: 99%

Interleukin-6-deficient mice develop hepatic inflammation and systemic insulin resistance

et al. 2010

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Aims/hypothesis The role of IL-6 in the development of obesity and hepatic insulin resistance is unclear and still the subject of controversy. We aimed to determine whether global deletion of Il6 in mice (Il6 −/− ) results in standard chow-induced and high-fat diet (HFD)-induced obesity, hepatosteatosis, inflammation and insulin resistance. Methods Male, 8-week-old Il6 −/− and littermate control mice were fed a standard chow or HFD for 12 weeks and phenotyped accordingly. Results Il6 −/− mice displayed obesity, hepatosteatosis, liver inflammation and insulin resistance when compared with control mice on a standard chow diet. When fed a HFD, the Il6 −/− and control mice had marked, equivalent gains in body weight, fat mass and ectopic lipid deposition in the liver relative to chow-fed animals. Despite this normalisation, the greater liver inflammation, damage and insulin resistance observed in chow-fed Il6 −/− mice relative to control persisted when both were fed the HFD. Microarray analysis from livers of mice fed a HFD revealed that genes associated with oxidative phosphorylation, the electron transport chain and tricarboxylic acid cycle were uniformly decreased in Il6 −/− relative to control mice. This coincided with reduced maximal activity of the mitochondrial enzyme β-hydroxyacyl-CoA-dehydrogenase and decreased levels of mitochondrial respiratory chain proteins. Conclusions/interpretation Our data suggest that IL-6 deficiency exacerbates HFD-induced hepatic insulin resistance and inflammation, a process that appears to be related to defects in mitochondrial metabolism.

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The expression of adipogenic genes is decreased in obesity and diabetes mellitus

Cited by 349 publications

References 42 publications

Genes involved in obesity: Adipocytes, brain and microflora

Genes involved in obesity: Adipocytes, brain and microflora

Microarray profiling of isolated abdominal subcutaneous adipocytes from obese vs non-obese Pima Indians: increased expression of inflammation-related genes

Interleukin-6-deficient mice develop hepatic inflammation and systemic insulin resistance

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