Abdominal Fat Mass Is Associated With Adaptive Immune Activation: The CODAM Study

Abdominal fat‐related activation of the innate immune system and insulin resistance (IR) are implicated in the pathogenesis of cardiovascular diseases. Recent data support an important role of the adaptive immune system as well. In this study, we investigate the association between waist circumferen...

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Bibliographic Details
Published in:Obesity (Silver Spring, Md.) Md.), 2011-08, Vol.19 (8), p.1690-1698
Main Authors: Thewissen, Marielle M., Damoiseaux, Jan G., Duijvestijn, Adriaan M., Greevenbroek, Marleen M., Kallen, Carla J., Feskens, Edith J., Blaak, Ellen E., Schalkwijk, Casper G., Stehouwer, Coen D., Tervaert, Jan W. Cohen, Ferreira, Isabel
Format: Article
Language:English
Subjects:
Abdomen
Abdominal Fat - immunology
Adaptive Immunity
adipose-tissue inflammation
Aged
Biomarkers - blood
c-reactive protein
C-Reactive Protein - metabolism
Cardiovascular Diseases - etiology
cardiovascular-disease
effector t-cells
Epidemiology
Female
Humans
ii-induced hypertension
Immune system
Immunity, Innate
Insulin Resistance
interferon-gamma
Interleukin-2 Receptor alpha Subunit - blood
Interleukin-6 - blood
Male
metabolic syndrome
Middle Aged
Neopterin - blood
Obesity
Obesity, Abdominal - blood
Obesity, Abdominal - complications
Obesity, Abdominal - immunology
Serum Amyloid A Protein - metabolism
soluble interleukin-2-receptor
vascular dysfunction
Waist Circumference - immunology
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Summary:Abdominal fat‐related activation of the innate immune system and insulin resistance (IR) are implicated in the pathogenesis of cardiovascular diseases. Recent data support an important role of the adaptive immune system as well. In this study, we investigate the association between waist circumference and markers of systemic adaptive immune activation, and the potential mediating role of innate immune activation and/or IR herein. The study population consisted of 477 (304 men) individuals (mean age: 59.4 ± 7.0 years) in whom waist circumference, HOMA2‐IR (IR derived from homeostasis model assessment), and markers of innate (C‐reactive protein (CRP), interleukin (IL)‐6, serum amyloid A (SAA)) and adaptive (neopterin, soluble CD25 (sCD25)) immune activation were measured. These markers were compiled into an adaptive and innate immune activation score by averaging the respective z‐scores. After adjustments for age, sex, glucose metabolism, smoking status, prior cardiovascular disease, and other risk factors, waist circumference was associated with the adaptive (standardized regression coefficient β = 0.12 (95% confidence intervals: 0.04–0.20)) and the innate immune activation scores (β = 0.24 (0.17–0.31)), and with HOMA2‐IR (β = 0.49 (0.42–0.56)). The innate immune activation score and HOMA2‐IR were also positively associated with the adaptive immune activation score (β = 0.31 (0.21–0.40) and β = 0.11 (0.02–0.21), respectively). The association between waist circumference and the adaptive immune activation score was completely abolished when further adjusted for innate immune activation and HOMA2‐IR (to β = −0.01 (−0.10–0.08)), and the specific mediation “effects” attributable to each of these variables were 58% and 42%, respectively. We conclude that abdominal obesity is associated with systemic adaptive immune activation and that innate immune activation and IR constitute independent and equally important pathways explaining this association.
ISSN:1930-7381
1930-739X
DOI:10.1038/oby.2010.337