Abstract
BackgroundComponents of liver microenvironment is complex, which makes it difficult to clarify pathogenesis of chronic liver diseases (CLD). Genome-wide association studies (GWASs) have greatly revealed the role of host genetic background in CLD pathogenesis and prognosis, while single-cell RNA sequencing (scRNA-seq) enables interrogation of the cellular diversity and function of liver tissue at unprecedented resolution. Here, we made integrative analysis on the GWAS and scRNA-seq data of CLD to uncover CLD-related cell types and provide clues for understanding on the pathogenesis.MethodsWe downloaded three GWAS summary data and three scRNA-seq data on CLD. After defining the cell types for each scRNA-seq data, we used RolyPoly and LDSC-cts to integrate the GWAS and scRNA-seq. In addition, we analyzed one scRNA-seq data without association to CLD to validate the specificity of our findings.ResultsAfter processing the scRNA-seq data, we obtain about 19,002–32,200 cells and identified 10–17 cell types. For the HCC analysis, we identified the association between B cell and HCC in two datasets. RolyPoly also identified the association, when we integrated the two scRNA-seq datasets. In addition, we also identified natural killer (NK) cell as HCC-associated cell type in one dataset. In specificity analysis, we identified no significant cell type associated with HCC. As for the cirrhosis analysis, we obtained no significant related cell type.ConclusionIn this integrative analysis, we identified B cell and NK cell as HCC-related cell type. More attention and verification should be paid to them in future research.
Highlights
Chronic liver disease (CLD) is a public health topic of global concern
For the scRNA-seq data (GSE149614), we identified 14 cell types on 30,983 cells (Supplementary Table 2 and Supplementary Figures 1,2)
We identified B cell (β = 2.956 × 10−4, se = 1.442 × 10−4, P = 0.0228) as cell type associated with HCC in RolyPoly (Figure 3), whereas natural killer cell (NK), monocyte, CD4 + T cell, plasma, macrophage, hepatocyte, regulatory T cell (Treg), endotheliocyte, mesenchymal cell, CD8 + T cell, and dendritic cell (DC) showed no significance (P > 0.05)
Summary
Chronic liver disease (CLD) is a public health topic of global concern. As estimated, about 844 million people worldwide are suffering from CLD and 2 million deaths each year (Asrani et al, 2019). Starting with diverse etiology-related chronic hepatitis, CLD might develop into cirrhosis and hepatocellular carcinoma after repetitive liver damage (Gadd et al, 2020). With the development of molecular biology, the role of host genetic background in CLD has gained wide attention (Anstee et al, 2020). Genome-wide association studies (GWASs) have contributed greatly to our understanding of the genetic roles in CLD pathogenesis and prognosis (Matsuura et al, 2017). Components of liver microenvironment is complex, which makes it difficult to clarify pathogenesis of chronic liver diseases (CLD). Genome-wide association studies (GWASs) have greatly revealed the role of host genetic background in CLD pathogenesis and prognosis, while single-cell RNA sequencing (scRNA-seq) enables interrogation of the cellular diversity and function of liver tissue at unprecedented resolution. We made integrative analysis on the GWAS and scRNA-seq data of CLD to uncover CLD-related cell types and provide clues for understanding on the pathogenesis
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