Identification of genetic variants that impact gene co-expression relationships using large-scale single-cell data

Li, Shuang; Schmid, Katharina; Vries, Dylan H. de; Korshevniuk, Maryna; Losert, Corinna; Oelen, Roy; Blokland, I.; Groot, Hilde E.; Swertz, Morris A.; Harst, Pim van der; Westra, Harm-Jan; Wijst, Monique G.P. van der; Heinig, Matthias; Franke, Lude

doi:10.1186/s13059-023-02897-x

Cited by 10 publications

(4 citation statements)

References 70 publications

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“…Furthermore, these eQTLs provide potential markers for further investigation into the mechanisms underlying the regulation of hub dark genes [84]. Investigating the impact of these eQTLs on gene expression and protein function can provide insights into the molecular pathways regulating hub dark genes and potentially identify therapeutic targets for diseases associated with these genes [85][86][87].…”

Section: Discussionmentioning

confidence: 99%

Unveiling the role of Tdark genes in genetic diseases and phenotypes through bioinformatics-based functional enrichment and network analyses

Kafita,

Dzobo,

Nkhoma

et al. 2024

Preprint

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In recent years, there has been growing interest in understanding the role of dark genes in genetic diseases and phenotypes. Despite their lack of functional characterisation, dark genes account for a significant portion of the human genome and are believed to play a role in regulating gene expression and cellular processes. We investigated the role of dark genes in genetic diseases and phenotypes by conducting integrative network analyses and functional enrichment studies across multiple large-scale molecular datasets. Our investigation revealed a predominant association of both dark and light genes with psoriasis. Furthermore, we found that the transcription factors UBTF and NFE2L2 are potential regulators of both dark and light genes associated with tuberculosis. In contrast, the transcription factors SUZ12 and TP63 are potential regulators of both dark and light genes associated with interstitial cystitis. Further network analysis of dark genes, including CALHM6, HCP5, PRRG4, DDX60L and RASA2, revealed a notably high weighted degree of association with genetic diseases and phenotypes. Moreover, our analysis revealed that numerous genetic diseases and phenotypes, including psoriasis, pick disease, tuberculosis, ulcerative colitis, interstitial cystitis, and Crohn's disease, exhibited shared gene linkages. Additionally, we conducted a protein-protein interaction analysis to reveal 16 dark genes that encode hub proteins, including R3HDM2, RPUSD4, FASTKD5, and MRPL15, that could play a role in many genetic diseases and phenotypes, and are widely expressed across body tissues. Our findings contribute to the understanding of the genetic basis of diseases and provide potential therapeutic targets for future research. Identifying dysregulated dark genes in disease states can lead to new strategies for prevention, diagnosis, and treatment, thus advancing our understanding of disease mechanisms.

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Section: Discussionmentioning

confidence: 99%

Unveiling the role of Tdark genes in genetic diseases and phenotypes through bioinformatics-based functional enrichment and network analyses

Kafita,

Dzobo,

Nkhoma

et al. 2024

Preprint

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“…In alignment with our earlier reference to the impact of RPS26 on T lymphocytes, it has been established that rs1131017 is a prominent SNP of a trans‐regulatory site that affects multiple genes in CD4 + and CD8 + T lymphocytes 20 . In T lymphocytes, rs1131017 can influence several genes connected with T lymphocyte activation and autoimmune disease 24 , yielding a potential explanation for the linkage of this variant with type 1 diabetes mellitus and LADA.…”

Section: Discussionmentioning

confidence: 99%

“…Previous GWASs have associated these variants with vitiligo 21 , type 1 diabetes mellitus in white people 18 and rheumatoid arthritis 22 , respectively. Furthermore, rs1131017 has been identified as a lead SNP in a trans‐acting regulatory region within T lymphocytes 20 , affecting not only RPS26 expression 23 , but also the expression of genes associated with T lymphocyte activation and autoimmune disorders 24 . Although existing research suggests that the expression of the RPS26 gene might not be the molecular trait directly responsible for susceptibility to type 1 diabetes mellitus in white people 23 , the correlation between the rs1131017 polymorphism in the RPS26 gene and susceptibility to type 1 diabetes mellitus and other diabetes subtypes in the Chinese population remains unexplored, and warrants further investigation.…”

Section: Introductionmentioning

confidence: 99%

Association of RPS26 gene polymorphism with different types of diabetes in Chinese individuals

Song,

Xie,

Ding

et al. 2023

J of Diabetes Invest

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Aims/IntroductionDifferent types of diabetes show distinct genetic characteristics, but the specific genetic susceptibility factors remain unclear. Our study aimed to explore the associations between the ribosomal protein S26 (RPS26) gene rs1131017 polymorphisms and susceptibility to type 1 diabetes mellitus, latent autoimmune diabetes in adults (LADA) and type 2 diabetes mellitus in the Chinese Han population, and their correlations with clinical features.Materials and MethodsGenotyping of the rs1131017 variant was carried out for 1,006 type 1 diabetes mellitus patients, 210 LADA patients, 642 type 2 diabetes mellitus patients and 2,099 control individuals.ResultsWe found that the rs1131017 C allele was a risk locus for both type 1 diabetes mellitus and LADA (odds ratio [OR] 1.50, 95% confidence interval [CI] 1.33–1.69, P < 0.001; OR 1.31, 95% CI 1.04–1.64, P = 0.021, respectively). Nevertheless, this association was not found for type 2 diabetes mellitus. Carrying the C allele genotype was associated with a lower postprandial C‐peptide for type 1 diabetes mellitus (OR 1.41, 95% CI 1.11–1.80, P = 0.006) and lower fasting C‐peptide for LADA (OR 1.55, 95% CI 1.01–2.38, P = 0.047). Interestingly, a lower GC frequency was noted for LADA than for type 1 diabetes mellitus, regardless of classification based on age at diagnosis, C‐peptide or glutamic acid decarboxylase antibody positivity.ConclusionsThe RPS26 polymorphism was associated with susceptibility and clinical characteristics of type 1 diabetes mellitus and LADA in the Chinese population, but was not related to type 2 diabetes mellitus. Thus, it might serve as a novel biomarker for particular types of diabetes.

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“…The top SNP for RPS26's deQTL is located in the gene's 5'UTR region, the binding site for six transcription factors (RBM39, TCF7, LEF1, KLF6, CD74 and MAF) 48 . We hypothesized that if these transcription factors (TFs) regulate the expression level of RPS26 via binding to this site, rs1131017 should be detected as a co-expression eQTL between RPS26 and these TFs in our data.…”

Section: Association Between Dispersion Eqtl and Immune Phenotypesmentioning

confidence: 99%

Genetic variants associated with cell-type-specific intra-individual gene expression variability reveal new mechanisms of genome regulation

Xue,

Yazar,

Alquicira-Hernández

et al. 2024

Preprint

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Gene expression levels can vary substantially across cells, even in a seemingly homogeneous cell population. Identifying the relationships between genetic variation and gene expression is critical for understanding the mechanisms of genome regulation. However, the genetic control of gene expression variability among the cells within individuals has yet to be extensively examined. This is primarily due to the statistical challenges, such as the need for sufficiently powered cohorts and adjusting mean-variance dependence. Here, we introduce MEOTIVE (Mapping genetic Effects On inTra-Individual Variability of gene Expression), a novel statistical framework to identify genetic effects on the gene expression variability (sc-veQTL) accounting for the mean-variance dependence. Using single-cell RNA-seq data of 1.2 million peripheral blood mononuclear cells from 980 human donors, we identified 14 - 3,488 genes with significant sc-veQTLs (study-wide q-value < 0.05) across different blood cell types, 2,103 of which were shared across more than one cell type. We further detected 55 SNP-gene pairs (in 34 unique genes) by directly linking genetic variations with gene expression dispersion (sc-deQTL) regardless of mean-variance dependence, and these genes were enriched in biological processes relevant to immune response and viral infection. An example is rs1131017 (p<9.08x10-52), a sc-veQTL in the 5 UTR of RPS26, which shows a ubiquitous dispersion effect across cell types, with higher dispersion levels associated with lower auto-immune disease risk, including rheumatoid arthritis and type 1 diabetes. Another example is LYZ, which is associated with antibacterial activity against bacterial species and was only detected with a monocyte-specific deQTL (rs1384) located at the 3 UTR region (p=1.48x10-11) and replicated in an independent cohort. Our results demonstrate an efficient and robust statistical method to identify genetic effects on gene expression variability and how these associations and their involved pathways confer auto-immune disease risk. This analytical framework provides a new approach to unravelling the genetic regulation of gene expression at the single-cell resolution, advancing our understanding of complex biological processes.

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Identification of genetic variants that impact gene co-expression relationships using large-scale single-cell data

Cited by 10 publications

References 70 publications

Unveiling the role of Tdark genes in genetic diseases and phenotypes through bioinformatics-based functional enrichment and network analyses

Unveiling the role of Tdark genes in genetic diseases and phenotypes through bioinformatics-based functional enrichment and network analyses

Association of RPS26 gene polymorphism with different types of diabetes in Chinese individuals

Genetic variants associated with cell-type-specific intra-individual gene expression variability reveal new mechanisms of genome regulation

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