Rare cases of monogenic obesity, which may respond to specific therapeutics, can remain undetected in populations in which polygenic obesity is prevalent. This study examined rare DNA variation in est Show more
Rare cases of monogenic obesity, which may respond to specific therapeutics, can remain undetected in populations in which polygenic obesity is prevalent. This study examined rare DNA variation in established monogenic obesity genes within a community using whole-exome sequence data from 6803 longitudinally studied individuals. Exome data across 15 monogenic obesity genes were analyzed for nonsynonymous variants observed in any child with a maximum BMI z score > 2 (N = 279) but not observed in a child with a maximum BMI z score ≤ 0 (n = 1542) or that occurred in adults in the top 5th percentile of BMI (n = 263) but not in adults below the median BMI (n = 2629). Variants were then functionally analyzed using luciferase assays. The comparisons between cases of obesity and controls identified eight missense variants in six genes: DYRK1B, KSR2, MC4R, NTRK2, PCSK1, and SIM1. Among these, MC4R p.A303P and p.R165G were previously shown to impair MC4R function. Functional analyses of the remaining six variants suggest that KSR2 p.I402F and p.T193I and NTRK2 p.S249Y alter protein function. In addition to MC4R, rare missense variants in KSR2 and NTRK2 may potentially explain the severe obesity observed for the carriers. Show less
MicroRNAs (miRNAs) play an important role in posttranscriptional regulation by binding to target sites in the 3'UTR of protein-coding genes. Genetic variation within target sites may potentially disru Show more
MicroRNAs (miRNAs) play an important role in posttranscriptional regulation by binding to target sites in the 3'UTR of protein-coding genes. Genetic variation within target sites may potentially disrupt the binding activity of miRNAs, thereby impacting this regulation. In the current study, we investigated whether any established BMI-associated genetic variants potentially function by altering a miRNA target site. The genomic positions of all predicted miRNA target site seed regions were identified, and these positions were queried in the T2D Knowledge Portal for variants that associated with BMI in the GIANT UK Biobank. This in silico analysis identified ten target site variants that associated with BMI with a P value ≤ 5 × 10 In vitro functional analyses showed that five of these target site variants, rs7132908 (FAIM2), rs4963153 (SLC25A22), rs9460 (ADPGK), rs11191548 (NT5C2), and rs3008747 (CCDC171), disrupted the binding activity of miRNAs to their target in an allele-specific manner. In conclusion, our study suggests that some established variants for BMI may function by altering miRNA binding to a 3'UTR target site. Show less