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Adipocyte inflammation is the primary driver of hepatic insulin resistance in a human iPSC-based microphysiological system

Author

Listed:
  • Lin Qi

    (University of California Berkeley)

  • Marko Groeger

    (University of California San Francisco
    University of California San Francisco)

  • Aditi Sharma

    (University of California San Francisco
    University of California San Francisco
    University of California San Francisco)

  • Ishan Goswami

    (University of California Berkeley)

  • Erzhen Chen

    (University of California Berkeley)

  • Fenmiao Zhong

    (University of California Berkeley)

  • Apsara Ram

    (University of California San Francisco
    University of California San Francisco
    University of California San Francisco)

  • Kevin Healy

    (University of California Berkeley
    University of California Berkeley)

  • Edward C. Hsiao

    (University of California San Francisco
    University of California San Francisco
    University of California San Francisco)

  • Holger Willenbring

    (University of California San Francisco
    University of California San Francisco
    University of California San Francisco)

  • Andreas Stahl

    (University of California Berkeley)

Abstract

Interactions between adipose tissue, liver and immune system are at the center of metabolic dysfunction-associated steatotic liver disease and type 2 diabetes. To address the need for an accurate in vitro model, we establish an interconnected microphysiological system (MPS) containing white adipocytes, hepatocytes and proinflammatory macrophages derived from isogenic human induced pluripotent stem cells. Using this MPS, we find that increasing the adipocyte-to-hepatocyte ratio moderately affects hepatocyte function, whereas macrophage-induced adipocyte inflammation causes lipid accumulation in hepatocytes and MPS-wide insulin resistance, corresponding to initiation of metabolic dysfunction-associated steatotic liver disease. We also use our MPS to identify and characterize pharmacological intervention strategies for hepatic steatosis and systemic insulin resistance and find that the glucagon-like peptide-1 receptor agonist semaglutide improves hepatocyte function by acting specifically on adipocytes. These results establish our MPS modeling the adipose tissue-liver axis as an alternative to animal models for mechanistic studies or drug discovery in metabolic diseases.

Suggested Citation

  • Lin Qi & Marko Groeger & Aditi Sharma & Ishan Goswami & Erzhen Chen & Fenmiao Zhong & Apsara Ram & Kevin Healy & Edward C. Hsiao & Holger Willenbring & Andreas Stahl, 2024. "Adipocyte inflammation is the primary driver of hepatic insulin resistance in a human iPSC-based microphysiological system," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52258-w
    DOI: 10.1038/s41467-024-52258-w
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    References listed on IDEAS

    as
    1. Manuele Gori & Maria Chiara Simonelli & Sara Maria Giannitelli & Luca Businaro & Marcella Trombetta & Alberto Rainer, 2016. "Investigating Nonalcoholic Fatty Liver Disease in a Liver-on-a-Chip Microfluidic Device," PLOS ONE, Public Library of Science, vol. 11(7), pages 1-15, July.
    2. Margo P. Emont & Christopher Jacobs & Adam L. Essene & Deepti Pant & Danielle Tenen & Georgia Colleluori & Angelica Vincenzo & Anja M. Jørgensen & Hesam Dashti & Adam Stefek & Elizabeth McGonagle & So, 2022. "A single-cell atlas of human and mouse white adipose tissue," Nature, Nature, vol. 603(7903), pages 926-933, March.
    3. Marko Groeger & Koji Matsuo & Emad Heidary Arash & Ashley Pereira & Dounia Guillou & Cindy Pino & Kayque A. Telles-Silva & Jacquelyn J. Maher & Edward C. Hsiao & Holger Willenbring, 2023. "Modeling and therapeutic targeting of inflammation-induced hepatic insulin resistance using human iPSC-derived hepatocytes and macrophages," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
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