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Pancreatic β-cell regeneration in situ by the ALK3 agonist THR-123

Author

Listed:
  • Silvia Álvarez-Cubela

    (University of Miami Miller School of Medicine (UM-MSoM)
    Universidad Católica de Valencia)

  • Isabella D. Altilio

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Mayur Doke

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Dagmar Klein

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Alejandro Tamayo

    (UM-MSoM)

  • Óscar Alcázar

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Carlos García Santana

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Mirza Muhammad Fahd Qadir

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Charles García Alver

    (UM-MSoM)

  • Francis Cruz

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Olivia Biggs

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Jorge David Tovar Castro

    (University of Miami Miller School of Medicine (UM-MSoM))

  • Belén Navarro-Rubio

    (Universidad Francisco de Vitoria
    CEU Escuela Internacional de Doctorado)

  • Camillo Ricordi

    (University of Miami Miller School of Medicine (UM-MSoM)
    UM-MSoM
    UM-MSoM
    UM-MSoM)

  • Alejandro Caicedo

    (UM-MSoM)

  • Peter Buchwald

    (University of Miami Miller School of Medicine (UM-MSoM)
    UM-MSoM)

  • Ashutosh Agarwal

    (UM-MSoM)

  • Elisa Oltra

    (Universidad Católica de Valencia)

  • Ricardo Luis Pastori

    (University of Miami Miller School of Medicine (UM-MSoM)
    UM-MSoM)

  • Juan Domínguez-Bendala

    (University of Miami Miller School of Medicine (UM-MSoM)
    UM-MSoM
    UM-MSoM)

Abstract

The demonstration that BMP signaling activates progenitor-like populations within pancreatic ducts supports the potential use of BMP receptor agonists to induce islet neogenesis in situ. In this context, we tested the ability of THR-123, a cyclic peptide with BMP-7-like activity, to regenerate β-cell mass in diabetic mice. We show here that treatment with THR-123 reduces hyperglycemia through the rapid formation of new BrdU-labeled islets, many in apposition to ducts. These islets, unlike those from non-diabetic controls, feature an extensive intrainsular network of ductal tissue. The earlier stages of THR-123-induced β-cell formation were reproduced in live pancreatic slices, an organotypic model that allowed us to visualize ductal cells transitioning to glucose-responsive insulin-expressing cells in real time. scRNAseq analyses further suggest that this transition occurs through a hybrid ducto-acinar stage similar to that previously reported in humans. Taken together, our data support the conclusion that these islets arise predominantly by neogenesis. These results pave the way for the design of pharmacological strategies to treat insulin-dependent diabetes.

Suggested Citation

  • Silvia Álvarez-Cubela & Isabella D. Altilio & Mayur Doke & Dagmar Klein & Alejandro Tamayo & Óscar Alcázar & Carlos García Santana & Mirza Muhammad Fahd Qadir & Charles García Alver & Francis Cruz & O, 2025. "Pancreatic β-cell regeneration in situ by the ALK3 agonist THR-123," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61534-2
    DOI: 10.1038/s41467-025-61534-2
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    References listed on IDEAS

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    1. Shakti Dahiya & Mohamed Saleh & Uylissa A. Rodriguez & Dhivyaa Rajasundaram & Jorge R. Arbujas & Arian Hajihassani & Kaiyuan Yang & Anuradha Sehrawat & Ranjeet Kalsi & Shiho Yoshida & Krishna Prasadan, 2024. "Acinar to β-like cell conversion through inhibition of focal adhesion kinase," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    2. Pingping Zhu & Yanying Wang & Ying Du & Lei He & Guanling Huang & Geng Zhang & Xinlong Yan & Zusen Fan, 2015. "C8orf4 negatively regulates self-renewal of liver cancer stem cells via suppression of NOTCH2 signalling," Nature Communications, Nature, vol. 6(1), pages 1-13, November.
    3. Gioele La Manno & Ruslan Soldatov & Amit Zeisel & Emelie Braun & Hannah Hochgerner & Viktor Petukhov & Katja Lidschreiber & Maria E. Kastriti & Peter Lönnerberg & Alessandro Furlan & Jean Fan & Lars E, 2018. "RNA velocity of single cells," Nature, Nature, vol. 560(7719), pages 494-498, August.
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