<p>Genome-wide association studies (GWASs) have identified hundreds of obesity-associated SNPs, but establishing their causality remains challenging. Here, we demonstrate that rs11676272, located in the ADCY3 gene, is a functional causal variant for obesity susceptibility. Bioinformatic analyses and dual-luciferase reporter assays indicate that the rs11676272 region may act as a human-gained enhancer regulating ADCY3 expression. In HEK293T cells, CRISPR-Cas9-mediated single-nucleotide editing of rs11676272 (T &gt; C) reduces ADCY3 expression. Moreover, the rs11676272-T allele is preferentially bound by the transcription factor E2F3 to upregulate ADCY3 expression, whereas the rs11676272-C risk allele loses this binding. In vivo, the rs11676272 T &gt; C variant in human ADCY3 (hADCY3) knock-in mice accelerates weight gain under high-fat diet conditions and shortens primary cilia in the ventromedial hypothalamus (VMH). CRISPRa-mediated activation of the hADCY3 promoter region rescues ciliary length in both the VMH and hypothalamic arcuate nucleus of Mut-hADCY3 mice. Our data reveal a causal role for rs11676272 in obesity, offering insight into potential therapeutic strategies.</p>

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The exonic SNP rs11676272-C risk allele mediates diet-induced obesity and reduces enhancer activation

  • Weina Wang,
  • Yue Li,
  • Sheng Dong,
  • Yuwei Liu,
  • Chenghang Guo,
  • Yuzhe Su,
  • Wei Tian,
  • Xiaoyu Hu,
  • Zhenshan Wang

摘要

Genome-wide association studies (GWASs) have identified hundreds of obesity-associated SNPs, but establishing their causality remains challenging. Here, we demonstrate that rs11676272, located in the ADCY3 gene, is a functional causal variant for obesity susceptibility. Bioinformatic analyses and dual-luciferase reporter assays indicate that the rs11676272 region may act as a human-gained enhancer regulating ADCY3 expression. In HEK293T cells, CRISPR-Cas9-mediated single-nucleotide editing of rs11676272 (T > C) reduces ADCY3 expression. Moreover, the rs11676272-T allele is preferentially bound by the transcription factor E2F3 to upregulate ADCY3 expression, whereas the rs11676272-C risk allele loses this binding. In vivo, the rs11676272 T > C variant in human ADCY3 (hADCY3) knock-in mice accelerates weight gain under high-fat diet conditions and shortens primary cilia in the ventromedial hypothalamus (VMH). CRISPRa-mediated activation of the hADCY3 promoter region rescues ciliary length in both the VMH and hypothalamic arcuate nucleus of Mut-hADCY3 mice. Our data reveal a causal role for rs11676272 in obesity, offering insight into potential therapeutic strategies.