Abstract
Aims/hypothesisBy genome-wide association meta-analysis, 17 genetic loci associated with fasting serum insulin (FSI), a marker of systemic insulin resistance, have been identified. To define potential culprit genes in these loci, in a cross-sectional study we analysed white adipose tissue (WAT) expression of 120 genes in these loci in relation to systemic and adipose tissue variables, and functionally evaluated genes demonstrating genotype-specific expression in WAT (eQTLs).MethodsAbdominal subcutaneous adipose tissue biopsies were obtained from 114 women. Basal lipolytic activity was measured as glycerol release from adipose tissue explants. Adipocytes were isolated and insulin-stimulated incorporation of radiolabelled glucose into lipids was used to quantify adipocyte insulin sensitivity. Small interfering RNA-mediated knockout in human mesenchymal stem cells was used for functional evaluation of genes.ResultsAdipose expression of 48 of the studied candidate genes associated significantly with FSI, whereas expression of 24, 17 and 2 genes, respectively, associated with adipocyte insulin sensitivity, lipolysis and/or WAT morphology (i.e. fat cell size relative to total body fat mass). Four genetic loci contained eQTLs. In one chromosome 4 locus (rs3822072), the FSI-increasing allele associated with lower FAM13A expression and FAM13A expression associated with a beneficial metabolic profile including decreased WAT lipolysis (regression coefficient, R = −0.50, p = 5.6 × 10−7). Knockdown of FAM13A increased lipolysis by ~1.5-fold and the expression of LIPE (encoding hormone-sensitive lipase, a rate-limiting enzyme in lipolysis). At the chromosome 7 locus (rs1167800), the FSI-increasing allele associated with lower POM121C expression. Consistent with an insulin-sensitising function, POM121C expression associated with systemic insulin sensitivity (R = −0.22, p = 2.0 × 10−2), adipocyte insulin sensitivity (R = 0.28, p = 3.4 × 10−3) and adipose hyperplasia (R = −0.29, p = 2.6 × 10−2). POM121C knockdown decreased expression of all adipocyte-specific markers by 25–50%, suggesting that POM121C is necessary for adipogenesis.Conclusions/interpretationGene expression and adipocyte functional studies support the notion that FAM13A and POM121C control adipocyte lipolysis and adipogenesis, respectively, and might thereby be involved in genetic control of systemic insulin sensitivity.
Highlights
Insulin resistance (IR), wherein cellular responses to insulin are impaired, is a key component of type 2 diabetes and is implicated in the development of cardiovascular disease [1]
Fasting serum insulin (FSI) was positively correlated with adipose morphology (r2 = 0.15, p = 2.0 × 10−5) and spontaneous lipolysis (r2 = 0.23, p = 1.5 × 10−6) but was negatively correlated with insulin-stimulated lipogenesis (r2 = 0.06, p = 0.0088) (Fig. 1b–d)
To explore the role of white adipose tissue (WAT) in the genetic predisposition to systemic IR we have analysed adipose expression of 120 candidate genes in genetic loci associated with FSI and FSIadjBMI
Summary
Insulin resistance (IR), wherein cellular responses to insulin are impaired, is a key component of type 2 diabetes and is implicated in the development of cardiovascular disease [1]. IR is associated with metabolic disturbances in liver, skeletal muscle and white adipose tissue (WAT) and is characterised by hyperinsulinaemia, hyperglycaemia and dyslipidaemia. Abdominal obesity is associated with altered cytokine and adipokine release from WAT, which is linked to low-grade inflammation and systemic IR [4]. Adipose morphology is central to IR and development of type 2 diabetes [5, 6]. Hypertrophic adipose tissue is associated with a pernicious metabolic profile, with blunted ability of insulin to stimulate fat synthesis through glucose conversion into lipids (lipogenesis), leading to an influx of NEFA into the liver and to systemic IR [7, 8]. The lipolytic activity in adipose tissue, resulting in the release of NEFA, can influence insulin sensitivity, as reviewed [9]
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