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3D chromatin maps of the human pancreas reveal lineage-specific regulatory architecture of T2D risk.

Citation
Su, C., et al. “3D Chromatin Maps Of The Human Pancreas Reveal Lineage-Specific Regulatory Architecture Of T2D Risk.”. Cell Metabolism, pp. 1394-1409.e4.
Center University of Pennsylvania
Featured
Author Chun Su, Long Gao, Catherine L May, James A Pippin, Keith Boehm, Michelle Lee, Chengyang Liu, Matthew C Pahl, Maria L Golson, Ali Naji, HPAP Consortium, Struan F A Grant, Andrew D Wells, Klaus H Kaestner
Keywords 3D chromatin maps, acinar cell, alpha cell, beta cell, islets of Langerhans, type 2 diabetes
Abstract

Three-dimensional (3D) chromatin organization maps help dissect cell-type-specific gene regulatory programs. Furthermore, 3D chromatin maps contribute to elucidating the pathogenesis of complex genetic diseases by connecting distal regulatory regions and genetic risk variants to their respective target genes. To understand the cell-type-specific regulatory architecture of diabetes risk, we generated transcriptomic and 3D epigenomic profiles of human pancreatic acinar, alpha, and beta cells using single-cell RNA-seq, single-cell ATAC-seq, and high-resolution Hi-C of sorted cells. Comparisons of these profiles revealed differential A/B (open/closed) chromatin compartmentalization, chromatin looping, and transcriptional factor-mediated control of cell-type-specific gene regulatory programs. We identified a total of 4,750 putative causal-variant-to-target-gene pairs at 194 type 2 diabetes GWAS signals using pancreatic 3D chromatin maps. We found that the connections between candidate causal variants and their putative target effector genes are cell-type stratified and emphasize previously underappreciated roles for alpha and acinar cells in diabetes pathogenesis.

Year of Publication
2022
Journal
Cell metabolism
Volume
34
Issue
9
Number of Pages
1394-1409.e4
Date Published
09/2022
ISSN Number
1932-7420
DOI
10.1016/j.cmet.2022.08.014
Alternate Journal
Cell Metab
PMID
36070683
PMCID
PMC9664375
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