Frontiers in Genetics (Aug 2021)

PRICKLE1 × FOCAD Interaction Revealed by Genome-Wide vQTL Analysis of Human Facial Traits

  • Dongjing Liu,
  • Hyo-Jeong Ban,
  • Ahmed M. El Sergani,
  • Ahmed M. El Sergani,
  • Myoung Keun Lee,
  • Jacqueline T. Hecht,
  • George L. Wehby,
  • Lina M. Moreno,
  • Eleanor Feingold,
  • Eleanor Feingold,
  • Mary L. Marazita,
  • Mary L. Marazita,
  • Mary L. Marazita,
  • Mary L. Marazita,
  • Seongwon Cha,
  • Heather L. Szabo-Rogers,
  • Heather L. Szabo-Rogers,
  • Heather L. Szabo-Rogers,
  • Heather L. Szabo-Rogers,
  • Seth M. Weinberg,
  • Seth M. Weinberg,
  • Seth M. Weinberg,
  • John R. Shaffer,
  • John R. Shaffer,
  • John R. Shaffer

DOI
https://doi.org/10.3389/fgene.2021.674642
Journal volume & issue
Vol. 12

Abstract

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The human face is a highly complex and variable structure resulting from the intricate coordination of numerous genetic and non-genetic factors. Hundreds of genomic loci impacting quantitative facial features have been identified. While these associations have been shown to influence morphology by altering the mean size and shape of facial measures, their effect on trait variance remains unclear. We conducted a genome-wide association analysis for the variance of 20 quantitative facial measurements in 2,447 European individuals and identified several suggestive variance quantitative trait loci (vQTLs). These vQTLs guided us to conduct an efficient search for gene-by-gene (G × G) interactions, which uncovered an interaction between PRICKLE1 and FOCAD affecting cranial base width. We replicated this G × G interaction signal at the locus level in an additional 5,128 Korean individuals. We used the hypomorphic Prickle1Beetlejuice (Prickle1Bj) mouse line to directly test the function of Prickle1 on the cranial base and observed wider cranial bases in Prickle1Bj/Bj. Importantly, we observed that the Prickle1 and Focadhesin proteins co-localize in murine cranial base chondrocytes, and this co-localization is abnormal in the Prickle1Bj/Bj mutants. Taken together, our findings uncovered a novel G × G interaction effect in humans with strong support from both epidemiological and molecular studies. These results highlight the potential of studying measures of phenotypic variability in gene mapping studies of facial morphology.

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