Circulating extracellular DNA is in association with continuous metabolic syndrome score in healthy adolescents.

Abstract

Obesity is associated with chronic low-grade inflammation that eventually leads to metabolic complications. Extracellular DNA (ecDNA) is a damage-associated molecular pattern. Extracellular mitochondrial DNA can activate innate immunity. We hypothesized that ecDNA, especially of mitochondrial origin could be associated with components of the metabolic syndrome in young healthy probands. In a cross-sectional study healthy adolescents (n=1249) provided blood samples. Anthropometric data, blood pressure and blood counts were assessed. In addition, biochemical analysis of sera or plasma was conducted including the quantification of advanced oxidation protein products (AOPP) as a marker of oxidative stress induced by neutrophil or monocyte activation. Plasma ecDNA was isolated and measured using fluorometry. Nuclear and mitochondrial DNA were quantified using real time PCR. Males had higher total plasma ecDNA (15 (11-21) vs 11 (8-17) ng/ml; median (IQR)), nuclear (1760 (956-3273) vs 1153 (600-2292) GE/ml) and mitochondrial DNA (37181 (14836-90896) vs 30089 (12587-72286) GE/ml). EcDNA correlated positively with the continuous metabolic syndrome score (r= 0.158 for males and r= 0.134 for females). Stronger correlations were found between ecDNA of mitochondrial origin and AOPP (r= 0.202 and 0.186 for males and females respectively). Multivariate regression analysis revealed associations of nuclear DNA with leukocyte and erythrocyte counts. The results of this study on healthy adolescents show that circulating ecDNA is associated with the risk of metabolic syndrome, not with obesity per se. The association between mitochondrial ecDNA and AOPP requires further attention as it supports a potential role of mitochondria-induced sterile inflammation in the pathogenesis of the metabolic syndrome.