PLoS ONE (Jan 2015)

Atherogenic dyslipidemia in children: evaluation of clinical, biochemical and genetic aspects.

  • Anna Montali,
  • Gessica Truglio,
  • Francesco Martino,
  • Fabrizio Ceci,
  • Giampiero Ferraguti,
  • Ester Ciociola,
  • Marianna Maranghi,
  • Francesco Gianfagna,
  • Licia Iacoviello,
  • Roberto Strom,
  • Marco Lucarelli,
  • Marcello Arca

DOI
https://doi.org/10.1371/journal.pone.0120099
Journal volume & issue
Vol. 10, no. 4
p. e0120099

Abstract

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The precursors of atherogenic dyslipidemia (AD) are not well defined. Therefore, we investigated 62 non-obese, non-diabetic AD and 221 normolipemic children. Anthropometric parameters, blood pressure and biochemical measures were obtained in index children, their parents and all available siblings. The heritability (h(2)) of anthropometric and biochemical traits was estimated by SOLAR. Rare and common variants in APOA1 and LPL genes were screened by re-sequencing. Compared to normolipemic, AD children showed increased body mass index, waist circumference, plasma glucose, insulin, ApoB, HOMA-IR, hs-CRP and lower adiponectin (p<0.001 for all). Metabolic syndrome was present in 40% of AD while absent in controls. All traits (except adiponectin and hs-CRP) showed a strong familial aggregation, with plasma glucose having the highest heritability (89%). Overall, 4 LPL loss-of-function mutations were detected (p.Asp9Asn, p.Ser45Asn, p.Asn291Ser, p.Leu365Val) and their cumulative prevalence was higher in AD than in control children (0.073 vs. 0.026; P=0.038). The LPL p.S447* gain-of-function mutation, resulted to be less frequent in AD than in control children (0.064 vs. 0.126; P=0.082). No variant in the APOA1 gene was found. Our data indicate that AD is a rather common dyslipidemia in childhood; it associates with metabolic abnormalities typical of insulin resistant state and shows a strong familial aggregation. LPL variants may contribute to the development of AD phenotype.