Integrative single-cell multi-omics profiling of human pancreatic islets identifies T1D-associated genes and regulatory signals Journal Article


Authors: D'Oliveira Albanus, R.; Zhang, X.; Zhao, Z.; Taylor, H. J.; Tang, X.; Han, Y.; Orchard, P.; Varshney, A.; Zhang, T.; Manickam, N.; Erdos, M. R.; Narisu, N.; Taylor, L.; Saavedra, X.; Liu, X.; Zhong, A.; Li, B.; Zhou, T.; Naji, A.; Liu, C.; Collins, F. S.; Parker, S. C. J.; Chen, S.
Article Title: Integrative single-cell multi-omics profiling of human pancreatic islets identifies T1D-associated genes and regulatory signals
Abstract: Genome-wide association studies (GWASs) have identified over 100 signals associated with type 1 diabetes (T1D). However, it has been challenging to translate any given T1D GWAS signal into mechanistic insights, such as causal variants, their target genes, and the specific cell types involved. Here, we present a comprehensive multi-omic integrative analysis of single-cell/nucleus resolution profiles of gene expression and chromatin accessibility in human pancreatic islets under baseline and T1D-stimulating conditions. We nominate effector cell types for all T1D GWAS signals and the regulatory elements and genes for three independent T1D signals acting through β cells at the DLK1/MEG3, RASGRP1, and TOX loci. Subsequently, we validated the functional impact of these genes and regulatory regions using isogenic human embryonic stem cells (hESCs). We found that loss of RASGRP1 or DLK1, as well as disruption of their corresponding regulatory regions, led to increased β cell apoptosis. Furthermore, β cells derived from isogenic hESCs carrying the T1D risk allele of rs3783355 associated with DLK1 showed elevated β cell death. Through additional RNA sequencing (RNA-seq) and assay for transposase-accessible chromatin using sequencing (ATAC-seq) analyses, we identified five genes upregulated in both RASGRP1−/− and DLK1−/− β-like cells, four of which are near T1D GWAS signals. This integrative approach combining single-cell multi-omics, GWASs, and isogenic human pluripotent stem cell (hPSC)-derived β-like cells illuminates cell type context, genes, single nucleotide polymorphisms (SNPs), and regulatory elements underlying T1D-associated signals, providing insights into the biological functions and molecular mechanisms involved. © 2025 Elsevier B.V., All rights reserved.
Keywords: controlled study; protein expression; human cell; single nucleotide polymorphism; flow cytometry; apoptosis; gene expression; gene expression profiling; genetic association; genotype; genome-wide association study; genetic transcription; transcriptomics; cytokine; real time polymerase chain reaction; upregulation; insulin dependent diabetes mellitus; rna extraction; differentiation; rna sequence; type 1 diabetes; pancreas islet; gwas; human; article; rna sequencing; whole exome sequencing; hpscs; multiomics; cp: metabolism; β cells; cp: genomics; human pancreatic islets; multi-omics profiling; t1d-associated signals
Journal Title: Cell Reports
Volume: 44
Issue: 8
ISSN: 2211-1247
Publisher: Cell Press  
Date Published: 2025-08-26
Start Page: 116065
Language: English
DOI: 10.1016/j.celrep.2025.116065
PROVIDER: scopus
PUBMED: 40737125
DOI/URL:
Notes: Source: Scopus
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  1. Ting Zhou
    30 Zhou
  2. Aaron Zhong
    12 Zhong