Interleukin-1 Receptor-Associated Kinase-3 Is a Key Inhibitor of Inflammation in Obesity and Metabolic Syndrome

Ann Mertens; B Geeraert; Bart Vanaudenaerde; Benjamine Geeraert; C van't Veer; Chantal Mathieu; Christos Tsatsanis; DE Cummings; Dieuwke De Keyzer; GP Van Guilder; GS Hotamisligil; H Kobayashi; H Motoshima; H Waki; H Wesche; I Ladunga; J Knight; JC Deng; JM Dekker; JS Morey; K Kobayashi; K Takahashi; KG Alberti; KM Ririe; L Sjostrom; M Hulsmans; M Salio; Maarten Hulsmans; Marc Hoylaerts; Matthias Lannoo; MR Dasu; MT Nguyen; MY Chou; Nora Benhabilès; O Rosati; P Holvoet; P Holvoet; P Holvoet; P Holvoet; P Holvoet; Paul Holvoet; PM Ridker; R Edgar; R Patino; Rakesh K. Srivastava; RG Baker; S Klein; SM Camhi; T Pischon; T Yamauchi; TJ Standiford; V Zacharioudaki; WF Pickl; WS Yang

Interleukin-1 Receptor-Associated Kinase-3 Is a Key Inhibitor of Inflammation in Obesity and Metabolic Syndrome

Abstract

BACKGROUND: Visceral obesity is associated with the rising incidence of type 2 diabetes and metabolic syndrome. Low-grade chronic inflammation and oxidative stress synergize in obesity and obesity-induced disorders. OBJECTIVE: We searched a cluster of molecules that support interactions between these stress conditions in monocytes. METHODS: RNA expressions in blood monocytes of two independent cohorts comprising 21 and 102 obese persons and 46 age-matched controls were determined by microarray and independently validated by quantitative RT-PCR analysis. The effect of three-month weight loss after bariatric surgery was determined. The effect of RNA silencing on inflammation and oxidative stress was studied in human monocytic THP-1 cells. RESULTS: Interleukin-1 receptor-associated kinase-3 (IRAK3), key inhibitor of IRAK/NFκB-mediated chronic inflammation, is downregulated in monocytes of obese persons. Low IRAK3 was associated with high superoxide dismutase-2 (SOD2), a marker of mitochondrial oxidative stress. A comparable expression profile was also detected in visceral adipose tissue of the same obese subjects. Low IRAK3 and high SOD2 was associated with a high prevalence of metabolic syndrome (odds ratio: 9.3; sensitivity: 91%; specificity: 77%). By comparison, the odds ratio of high-sensitivity C-reactive protein, a widely used marker of systemic inflammation, was 4.3 (sensitivity: 69%; specificity: 66%). Weight loss was associated with an increase in IRAK3 and a decrease in SOD2, in association with a lowering of systemic inflammation and a decreasing number of metabolic syndrome components. We identified the increase in reactive oxygen species in combination with obesity-associated low adiponectin and high glucose and interleukin-6 as cause of the decrease in IRAK3 in THP-1 cells in vitro. CONCLUSION: IRAK3 is a key inhibitor of inflammation in association with obesity and metabolic syndrome. Our data warrant further evaluation of IRAK3 as a diagnostic and prognostic marker, and as a target for intervention