Khanh Bao Trang, Alessandra Chesi, Sylvanus Toikumo, James A Pippin, Matthew C Pahl, Joan M O'Brien, Laufey T Amundadottir, Kevin M Brown, Wenli Yang, Jaclyn Welles, Dominic Santoleri, Paul M Titchenell, Patrick Seale, Babette S Zemel, Yadav Wagley, Kurt D Hankenson, Klaus H Kaestner, Stewart A Anderson, Andrew D Wells, Henry R Kranzler, Rachel L Kember, Struan FA Grant
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Using stratified LD regression, we determined the proportion of genome-wide SNP heritability attributable to the features assayed across our cell types by integrating recent GWAS summary statistics for the relevant traits: alcohol use disorder (AUD), tobacco use disorder (TUD), opioid use disorder (OUD) and cannabis use disorder (CanUD). Statistically significant enrichments (P<0.05) were observed in 14 specific cell types, with heritability reaching 9.2-fold for iPSC-derived cortical neurons and neural progenitors, confirming that they are crucial cell types for further functional exploration. Additionally, several pancreatic cell types, notably pancreatic beta cells, showed enrichment for TUD, with heritability enrichments up to 4.8-fold, suggesting genomic overlap with metabolic processes. Further investigation revealed significant positive genetic correlations between T2D with both TUD and CanUD (FDR<0.05) and a significant negative genetic correlation with AUD. Interestingly, after partitioning the heritability for each cell type's cis-regulatory elements, the correlation between T2D and TUD for pancreatic beta cells was greater (r=0.2) than the global genetic correlation value. 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引用次数: 0
摘要
最近的全基因组关联研究(GWAS)揭示了酒精、阿片类药物、烟草和大麻使用障碍之间的共同遗传因素。然而,潜在的共享因果变异和效应基因的范围及其细胞背景仍不清楚。我们利用现有的三维基因组数据集(包括高分辨率启动子Capture-C/Hi-C、ATAC-seq和RNA-seq),横跨50种不同的人类细胞类型,重点研究与GWAS位点相吻合的基因组区域。我们使用分层 LD 回归法,通过整合相关性状(酒精使用障碍 (AUD)、烟草使用障碍 (TUD)、阿片类药物使用障碍 (OUD) 和大麻使用障碍 (CanUD))的近期 GWAS 统计摘要,确定了全基因组 SNP 遗传性可归因于细胞类型检测特征的比例。在 14 种特定细胞类型中观察到了统计学意义上的显着富集(P<0.05),iPSC 衍生的皮质神经元和神经祖细胞的遗传率达到 9.2 倍,证实它们是进一步功能探索的关键细胞类型。此外,几种胰腺细胞类型,特别是胰腺β细胞,显示出TUD的富集,遗传性富集高达4.8倍,表明基因组与代谢过程重叠。进一步研究发现,T2D 与 TUD 和 CanUD 之间存在明显的正遗传相关性(FDR<0.05),而与 AUD 之间存在明显的负遗传相关性。有趣的是,在对每种细胞类型的顺式调节元件的遗传率进行分区后,胰腺β细胞的 T2D 与 TUD 之间的相关性(r=0.2)大于整体遗传相关值。我们的研究为药物使用障碍提供了新的基因组学见解,并涉及到细胞类型,对这些细胞类型的功能跟踪研究可能会揭示这些障碍的因果变异基因机制。
Shared and unique 3D genomic features of substance use disorders across multiple cell types
Recent genome-wide association studies (GWAS) have revealed shared genetic components among alcohol, opioid, tobacco and cannabis use disorders. However, the extent of the underlying shared causal variants and effector genes, along with their cellular context, remain unclear. We leveraged our existing 3D genomic datasets comprising high-resolution promoter-focused Capture-C/Hi-C, ATAC-seq and RNA-seq across >50 diverse human cell types to focus on genomic regions that coincide with GWAS loci. Using stratified LD regression, we determined the proportion of genome-wide SNP heritability attributable to the features assayed across our cell types by integrating recent GWAS summary statistics for the relevant traits: alcohol use disorder (AUD), tobacco use disorder (TUD), opioid use disorder (OUD) and cannabis use disorder (CanUD). Statistically significant enrichments (P<0.05) were observed in 14 specific cell types, with heritability reaching 9.2-fold for iPSC-derived cortical neurons and neural progenitors, confirming that they are crucial cell types for further functional exploration. Additionally, several pancreatic cell types, notably pancreatic beta cells, showed enrichment for TUD, with heritability enrichments up to 4.8-fold, suggesting genomic overlap with metabolic processes. Further investigation revealed significant positive genetic correlations between T2D with both TUD and CanUD (FDR<0.05) and a significant negative genetic correlation with AUD. Interestingly, after partitioning the heritability for each cell type's cis-regulatory elements, the correlation between T2D and TUD for pancreatic beta cells was greater (r=0.2) than the global genetic correlation value. Our study provides new genomic insights into substance use disorders and implicates cell types where functional follow-up studies could reveal causal variant-gene mechanisms underpinning these disorders.