Evidence of epistasis in regions of long-range linkage disequilibrium across five complex diseases in the UK Biobank and eMERGE datasets

Singhal, Pankhuri; Veturi, Yogasudha; Dudek, Scott M.; Lucas, Anastasia; Frase, Alex T.; Schrodi, Steven J; Fasel, David; Weng, Chunhua; Pendergrass, Rion; Schaid, Daniel J.; Kullo, Iftikhar J.; Dikilitas, Ozan; Sleiman, Patrick; Hákonarson, Hákon; Moore, Jason H.; Williams, Scott M.; Ritchie, Marylyn D.; Verma, Shefali S.

doi:10.1101/2022.10.19.22280888

Cited by 5 publications

(7 citation statements)

References 104 publications

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“…Long-range linkage disequilibrium in eQTLs for global subnetworks was found only in the GTEx data, and thus, may have played a role in shaping tissue-specific gene regulation during evolution. Our results substantially elaborate the previous reports on the pleiotropic effects of eQTLs on clusters of locally co-expressed genes 15 , a hierarchy in gene expression and eQTL patterns across tissue types 16 , and long-range linkage disequilibrium that recent studies have begun to notice in genome-wide association studies 17,18,19 .…”

Section: Introductionsupporting

confidence: 89%

“…While Type I blocks have been previously reported as eQTLs for co-expressed local genes 15 , our analysis revealed previously unknown Type II blocks. Long-range linkage disequilibrium among SNPs has been known to arise from epistatic selection or population structure, and to be implicated in complex diseases 17,18,19 , but little has been known about their roles in gene regulation. Our results suggest that long-range linkage disequilibrium may have played a role in shaping tissue-specific gene regulation in global subnetworks.…”

Section: Resultsmentioning

confidence: 99%

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Learning gene networks under SNP perturbation using SNP and allele-specific expression data

Yoon,

Kim

2023

Preprint

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Allele-specific expression quantification from RNA-seq reads provides opportunities to study the control of gene regulatory networks by cis-acting and trans-acting genetic variants. Many existing methods performed a single-gene and single-SNP association analysis to identify expression quantitative trait loci (eQTLs), and placed the eQTLs against known gene networks for functional interpretation. Instead, we view eQTL data as a capture of the effects of perturbation of gene regulatory system by a large number of genetic variants and reconstruct a gene network perturbed by eQTLs. We introduce a statistical framework called CiTruss for simultaneously learning a gene network and cis-acting and trans-acting eQTLs that perturb this network, given population allele-specific expression and SNP data. CiTruss uses a multi-level conditional Gaussian graphical model to model trans-acting eQTLs perturbing the expression of both alleles in gene network at the top level and cis-acting eQTLs perturbing the expression of each allele at the bottom level. We derive a transformation of this model that allows efficient learning for large-scale human data. Our analysis of the GTEx and LGxSM advanced intercross line mouse data for multiple tissue types with CiTruss provides new insights into genetics of gene regulation. CiTruss revealed that gene networks consist of local subnetworks over proximally located genes and global subnetworks over genes scattered across genome, and that several aspects of gene regulation by eQTLs such as the impact of genetic diversity, pleiotropy, tissue-specific gene regulation, and local and long-range linkage disequilibrium among eQTLs can be explained through these local and global subnetworks.

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Section: Introductionsupporting

confidence: 89%

Section: Resultsmentioning

confidence: 99%

Learning gene networks under SNP perturbation using SNP and allele-specific expression data

Yoon,

Kim

2023

Preprint

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“…Finally, 19 SNPs were used for the analysis. The decision to keep correlated SNPs up to an r 2 of 0.92 was based on evidence that SNP-SNP pairs in high linkage disequilibrium can be significantly associated with phenotypes due to epistatic effects (30), so that cases where two correlated SNPs differ from each other might contain valuable information. Details of the SNPs which were used, as well as previously reported associations, are shown in Table 1.…”

Section: Aqp4 Snpsmentioning

confidence: 99%

Explainable artificial intelligence identifies an AQP4 polymorphism-based risk score associated with brain amyloid burden

Beer,

Elmenhorst,

Bischof

et al. 2024

Preprint

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Aquaporin-4 (AQP4) is an integral component of the glymphatic system, today considered a crucial pathway for removing brain interstitial solutes like amyloid-β (Aβ). Evidence exists that genetic variation of AQP4 impacts Aβ clearance, clinical outcome in Alzheimer’s disease as well as sleep measures. We examined whether a risk score calculated from several AQP4 single-nucleotide polymorphisms (SNPs) is related to Aβ neuropathology in older cognitively unimpaired individuals. We used a machine learning approach with decision tree ensembles and explainable artificial intelligence (AI) to extract information on synergistic effects of AQP4 SNPs on brain amyloid burden from the Alzheimer’s Disease Neuroimaging Initiative (ADNI) cohort. From this information, we formulated a sex-specific AQP4 SNP-based risk score and evaluated it on the basis of data from the screening process of the Anti-Amyloid Treatment in Asymptomatic Alzheimer’s (A4) study. We found in both cohorts significant associations of the risk score with brain amyloid burden as well as amyloid positivity. The results support the hypothesis of an involvement of the glymphatic system, and particularly AQP4, in brain amyloid aggregation pathology. They suggest also that different AQP4 SNPs exert a synergistic effect on the build-up of brain amyloid burden.

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“…For haplotypes, the swept radius, 1/ɛ, estimates the distance in kb at which association falls to approximately one‐third of disease haplotypes, the swept radius is estimated to be between 300 and 500 kb, and for random haplotypes it is somewhat smaller than 300 kb 42 . More recently, LD at larger distances (1 centimorgan or approximately 1 Mb) has been characterized at the chromosome‐wide level, 43 and epistasis at distances of long‐range LD (>0.25 cM) have been reported for complex diseases including Alzheimer's disease (AD) 44 . It is noteworthy that LD is also influenced by factors including allele frequencies of the variants and is often ancestry‐specific.…”

Section: Narrativementioning

confidence: 99%

“…42 More recently, LD at larger distances (1 centimorgan or approximately 1 Mb) has been characterized at the chromosome-wide level, 43 and epistasis at distances of long-range LD (>0.25 cM) have been reported for complex diseases including Alzheimer's disease (AD). 44 It is noteworthy that LD is also influenced by factors including allele frequencies of the variants and is often ancestry-specific.…”

Section: Characterization Of Ssv Impact On Tf Binding Sites and Prior...mentioning

confidence: 99%

Bioinformatics pipeline to guide post‐GWAS studies in Alzheimer's: A new catalogue of disease candidate short structural variants

Lutz

Chiba‐Falek

2023

Alzheimer's & Dementia

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BackgroundShort structural variants (SSVs), including insertions/deletions (indels), are common in the human genome and impact disease risk. The role of SSVs in late‐onset Alzheimer's disease (LOAD) has been understudied. In this study, we developed a bioinformatics pipeline of SSVs within LOAD–genome‐wide association study (GWAS) regions to prioritize regulatory SSVs based on the strength of their predicted effect on transcription factor (TF) binding sites.MethodsThe pipeline utilized publicly available functional genomics data sources including candidate cis‐regulatory elements (cCREs) from ENCODE and single‐nucleus (sn)RNA‐seq data from LOAD patient samples.ResultsWe catalogued 1581 SSVs in candidate cCREs in LOAD GWAS regions that disrupted 737 TF sites. That included SSVs that disrupted the binding of RUNX3, SPI1, and SMAD3, within the APOE‐TOMM40, SPI1, and MS4A6A LOAD regions.ConclusionsThe pipeline developed here prioritized non‐coding SSVs in cCREs and characterized their putative effects on TF binding. The approach integrates multiomics datasets for validation experiments using disease models.

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Evidence of epistasis in regions of long-range linkage disequilibrium across five complex diseases in the UK Biobank and eMERGE datasets

Cited by 5 publications

References 104 publications

Learning gene networks under SNP perturbation using SNP and allele-specific expression data

Learning gene networks under SNP perturbation using SNP and allele-specific expression data

Explainable artificial intelligence identifies an AQP4 polymorphism-based risk score associated with brain amyloid burden

Bioinformatics pipeline to guide post‐GWAS studies in Alzheimer's: A new catalogue of disease candidate short structural variants

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