BMC Psychiatry (Sep 2023)

Blood miRNA levels associated with ADHD traits in children across six European birth cohorts

  • Lene B. Dypås,
  • Nur Duale,
  • Ann-Karin Olsen,
  • Mariona Bustamante,
  • Lea Maitre,
  • Geòrgia Escaramis,
  • Jordi Julvez,
  • Sofia Aguilar-Lacasaña,
  • Sandra Andrusaityte,
  • Maribel Casas,
  • Marina Vafeiadi,
  • Regina Grazuleviciene,
  • Barbara Heude,
  • Johanna Lepeule,
  • Jose Urquiza,
  • John Wright,
  • Tiffany C. Yang,
  • Martine Vrijheid,
  • Kristine B. Gützkow

DOI
https://doi.org/10.1186/s12888-023-05199-5
Journal volume & issue
Vol. 23, no. 1
pp. 1 – 13

Abstract

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Abstract Background Attention-deficit/hyperactivity disorder (ADHD) is a prevalent and highly heritable neurodevelopmental disorder of major societal concern. Diagnosis can be challenging and there are large knowledge gaps regarding its etiology, though studies suggest an interplay of genetic and environmental factors involving epigenetic mechanisms. MicroRNAs (miRNAs) show promise as biomarkers of human pathology and novel therapies, and here we aimed to identify blood miRNAs associated with traits of ADHD as possible biomarker candidates and further explore their biological relevance. Methods Our study population consisted of 1126 children (aged 5–12 years, 46% female) from the Human Early Life Exposome study, a study spanning six ongoing population-based European birth cohorts. Expression profiles of miRNAs in whole blood samples were quantified by microarray and tested for association with ADHD-related measures of behavior and neuropsychological functions from questionnaires (Conner’s Rating Scale and Child Behavior Checklist) and computer-based tests (the N-back task and Attention Network Test). Results We identified 29 miRNAs significantly associated (false discovery rate < .05) with the Conner’s questionnaire-rated trait hyperactivity, 15 of which have been linked to ADHD in previous studies. Investigation into their biological relevance revealed involvement in several pathways related to neurodevelopment and function, as well as being linked with other neurodevelopmental or psychiatric disorders known to overlap with ADHD both in symptomology, genetic risk, and co-occurrence, such as autism spectrum disorder or schizophrenia. An additional three miRNAs were significantly associated with Conner’s-rated inattention. No associations were found with questionnaire-rated total ADHD index or with computer-based tests. Conclusions The large overlap of our hyperactivity-associated miRNAs with previous studies on ADHD is intriguing and warrant further investigation. Though this study should be considered explorative and preliminary, these findings contribute towards identifying a set of miRNAs for use as blood-based biomarkers to aid in earlier and easier ADHD diagnosis.

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