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Loss of the transcription factor MAFB limits β-cell derivation from human PSCs

Author

Listed:
  • Ronan Russell

    (University of California San Francisco)

  • Phichitpol P. Carnese

    (University of California San Francisco)

  • Thomas G. Hennings

    (University of California San Francisco)

  • Emily M. Walker

    (Vanderbilt University)

  • Holger A. Russ

    (University of California San Francisco
    University of Colorado Denver)

  • Jennifer S. Liu

    (University of California San Francisco)

  • Simone Giacometti

    (University of California San Francisco)

  • Roland Stein

    (Vanderbilt University)

  • Matthias Hebrok

    (University of California San Francisco)

Abstract

Next generation sequencing studies have highlighted discrepancies in β-cells which exist between mice and men. Numerous reports have identified MAF BZIP Transcription Factor B (MAFB) to be present in human β-cells postnatally, while its expression is restricted to embryonic and neo-natal β-cells in mice. Using CRISPR/Cas9-mediated gene editing, coupled with endocrine cell differentiation strategies, we dissect the contribution of MAFB to β-cell development and function specifically in humans. Here we report that MAFB knockout hPSCs have normal pancreatic differentiation capacity up to the progenitor stage, but favor somatostatin- and pancreatic polypeptide–positive cells at the expense of insulin- and glucagon-producing cells during endocrine cell development. Our results describe a requirement for MAFB late in the human pancreatic developmental program and identify it as a distinguishing transcription factor within islet cell subtype specification. We propose that hPSCs represent a powerful tool to model human pancreatic endocrine development and associated disease pathophysiology.

Suggested Citation

  • Ronan Russell & Phichitpol P. Carnese & Thomas G. Hennings & Emily M. Walker & Holger A. Russ & Jennifer S. Liu & Simone Giacometti & Roland Stein & Matthias Hebrok, 2020. "Loss of the transcription factor MAFB limits β-cell derivation from human PSCs," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16550-9
    DOI: 10.1038/s41467-020-16550-9
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    Cited by:

    1. William R. Reay & Dylan J. Kiltschewskij & Maria A. Biase & Zachary F. Gerring & Kousik Kundu & Praveen Surendran & Laura A. Greco & Erin D. Clarke & Clare E. Collins & Alison M. Mondul & Demetrius Al, 2024. "Genetic influences on circulating retinol and its relationship to human health," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
    2. Ryan J. Smith & Hongpan Zhang & Shengen Shawn Hu & Theodora Yung & Roshane Francis & Lilian Lee & Mark W. Onaitis & Peter B. Dirks & Chongzhi Zang & Tae-Hee Kim, 2022. "Single-cell chromatin profiling of the primitive gut tube reveals regulatory dynamics underlying lineage fate decisions," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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