Nature Communications (Feb 2023)

Genetic correlates of vitamin D-binding protein and 25-hydroxyvitamin D in neonatal dried blood spots

  • Clara Albiñana,
  • Zhihong Zhu,
  • Nis Borbye-Lorenzen,
  • Sanne Grundvad Boelt,
  • Arieh S. Cohen,
  • Kristin Skogstrand,
  • Naomi R. Wray,
  • Joana A. Revez,
  • Florian Privé,
  • Liselotte V. Petersen,
  • Cynthia M. Bulik,
  • Oleguer Plana-Ripoll,
  • Katherine L. Musliner,
  • Esben Agerbo,
  • Anders D. Børglum,
  • David M. Hougaard,
  • Merete Nordentoft,
  • Thomas Werge,
  • Preben Bo Mortensen,
  • Bjarni J. Vilhjálmsson,
  • John J. McGrath

DOI
https://doi.org/10.1038/s41467-023-36392-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract The vitamin D binding protein (DBP), encoded by the group-specific component (GC) gene, is a component of the vitamin D system. In a genome-wide association study of DBP concentration in 65,589 neonates we identify 26 independent loci, 17 of which are in or close to the GC gene, with fine-mapping identifying 2 missense variants on chromosomes 12 and 17 (within SH2B3 and GSDMA, respectively). When adjusted for GC haplotypes, we find 15 independent loci distributed over 10 chromosomes. Mendelian randomization analyses identify a unidirectional effect of higher DBP concentration and (a) higher 25-hydroxyvitamin D concentration, and (b) a reduced risk of multiple sclerosis and rheumatoid arthritis. A phenome-wide association study confirms that higher DBP concentration is associated with a reduced risk of vitamin D deficiency. Our findings provide valuable insights into the influence of DBP on vitamin D status and a range of health outcomes.