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Pancreatic islet chromatin accessibility and conformation reveals distal enhancer networks of type 2 diabetes risk

Author

Listed:
  • William W. Greenwald

    (Bioinformatics and Systems Biology Graduate Program)

  • Joshua Chiou

    (Biomedical Sciences Graduate Program)

  • Jian Yan

    (Ludwig Institute for Cancer Research
    Karolinska Institutet)

  • Yunjiang Qiu

    (Bioinformatics and Systems Biology Graduate Program
    Ludwig Institute for Cancer Research)

  • Ning Dai

    (Harvard University)

  • Allen Wang

    (Department of Pediatrics
    Center for Epigenomics)

  • Naoki Nariai

    (Department of Pediatrics)

  • Anthony Aylward

    (Bioinformatics and Systems Biology Graduate Program)

  • Jee Yun Han

    (Center for Epigenomics)

  • Nikita Kadakia

    (Department of Pediatrics)

  • Laura Regue

    (Harvard University)

  • Mei-Lin Okino

    (Department of Pediatrics)

  • Frauke Drees

    (Department of Pediatrics)

  • Dana Kramer

    (Mouse Biology Unit)

  • Nicholas Vinckier

    (Department of Pediatrics)

  • Liliana Minichiello

    (Mouse Biology Unit
    University of Oxford)

  • David Gorkin

    (Center for Epigenomics)

  • Joseph Avruch

    (Harvard University)

  • Kelly A. Frazer

    (Department of Pediatrics)

  • Maike Sander

    (Department of Pediatrics
    Department of Cellular and Molecular Medicine)

  • Bing Ren

    (Ludwig Institute for Cancer Research
    Center for Epigenomics
    Department of Cellular and Molecular Medicine)

  • Kyle J. Gaulton

    (Department of Pediatrics)

Abstract

Genetic variants affecting pancreatic islet enhancers are central to T2D risk, but the gene targets of islet enhancer activity are largely unknown. We generate a high-resolution map of islet chromatin loops using Hi-C assays in three islet samples and use loops to annotate target genes of islet enhancers defined using ATAC-seq and published ChIP-seq data. We identify candidate target genes for thousands of islet enhancers, and find that enhancer looping is correlated with islet-specific gene expression. We fine-map T2D risk variants affecting islet enhancers, and find that candidate target genes of these variants defined using chromatin looping and eQTL mapping are enriched in protein transport and secretion pathways. At IGF2BP2, a fine-mapped T2D variant reduces islet enhancer activity and IGF2BP2 expression, and conditional inactivation of IGF2BP2 in mouse islets impairs glucose-stimulated insulin secretion. Our findings provide a resource for studying islet enhancer function and identifying genes involved in T2D risk.

Suggested Citation

  • William W. Greenwald & Joshua Chiou & Jian Yan & Yunjiang Qiu & Ning Dai & Allen Wang & Naoki Nariai & Anthony Aylward & Jee Yun Han & Nikita Kadakia & Laura Regue & Mei-Lin Okino & Frauke Drees & Dan, 2019. "Pancreatic islet chromatin accessibility and conformation reveals distal enhancer networks of type 2 diabetes risk," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09975-4
    DOI: 10.1038/s41467-019-09975-4
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