Functional Assessment of Coding and Regulatory Variants From the DKK1 Locus.
Núria Martínez-GilNeus Roca-AyatsNurgül AtalayMarta Pineda-MoncusíNatalia García-GiraltWim Van HulEveline BoudinDiana OvejeroLeonardo MellibovskyXavier NoguésAdolfo Diez-PerezDaniel GrinbergSusanna BalcellsPublished in: JBMR plus (2020)
The DKK1 gene encodes an extracellular inhibitor of the Wnt pathway with an important role in bone tissue development, bone homeostasis, and different critical aspects of bone biology. Several BMD genome-wide association studies (GWASs) have consistently found association with SNPs in the DKK1 genomic region. For these reasons, it is important to assess the functionality of coding and regulatory variants in the gene. Here, we have studied the functionality of putative regulatory variants, previously found associated with BMD in different studies by others and ourselves, and also six missense variants present in the general population. Using a Wnt-pathway-specific luciferase reporter assay, we have determined that the variants p.Ala41Thr, p.Tyr74Phe, p.Arg120Leu, and p.Ser157Ile display a reduced DKK1 inhibitory capacity as compared with WT. This result agrees with the high-bone-mass (HBM) phenotype of two women from our cohort who carried mutations p.Tyr74Phe or p.Arg120Leu. On the other hand, by means of a circularized chromosome conformation capture- (4C-) sequencing experiment, we have detected that the region containing 24 BMD-GWA variants, located 350-kb downstream of DKK1, interacts both with DKK1 and the LNCAROD (LncRNA-activating regulator of DKK1, AKA LINC0148) in osteoblastic cells. In conclusion, we have shown that some rare coding variants are partial loss-of-function mutations that may lead to a HBM phenotype, whereas the common SNPs associated with BMD in GWASs belong to a putative long-range regulatory region, through a yet unknown mechanism involving LNCAROD. © 2020 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research.
Keyphrases
- copy number
- genome wide
- bone mineral density
- transcription factor
- genome wide association
- stem cells
- soft tissue
- bone loss
- systematic review
- dna methylation
- randomized controlled trial
- postmenopausal women
- bone regeneration
- crispr cas
- oxidative stress
- gene expression
- single cell
- high throughput
- intellectual disability
- insulin resistance
- skeletal muscle
- polycystic ovary syndrome
- binding protein
- cell cycle arrest
- pi k akt
- pregnant women
- cervical cancer screening