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Axial nephron fate switching demonstrates a plastic system tunable on demand

Author

Listed:
  • MaryAnne A. Achieng

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

  • Jack Schnell

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

  • Connor C. Fausto

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

  • Réka L. Csipán

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

  • Kari Koppitch

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

  • Matthew E. Thornton

    (University of Southern California)

  • Brendan H. Grubbs

    (University of Southern California)

  • Nils O. Lindström

    (Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at University of Southern California)

Abstract

The human nephron is a highly patterned tubular structure that develops specialized cells to regulate bodily fluid homeostasis, blood pressure, and urine secretion throughout life. Approximately 1 million nephrons form in each kidney during embryonic and fetal development, but how they develop is poorly understood. Here, we interrogate axial patterning mechanisms in the human nephron using an iPSC-derived kidney organoid system that generates hundreds of developmentally synchronized nephrons, and we compare it to in vivo human kidney development using single cell and spatial transcriptomic approaches. We show that human nephron patterning is controlled by integrated WNT/BMP/FGF signaling. Imposing a WNTON/BMPOFF state established a distal nephron identity that matures into thick ascending loop of Henle cells by endogenously activating FGF. Simultaneous suppression of FGF signaling switches cells back to a proximal cell-state, a transformation that is in itself dependent on BMP signal transduction. Our system highlights plasticity in axial nephron patterning, delineates the roles of WNT, FGF, and BMP mediated mechanisms controlling nephron patterning, and paves the way for generating nephron cells on demand.

Suggested Citation

  • MaryAnne A. Achieng & Jack Schnell & Connor C. Fausto & Réka L. Csipán & Kari Koppitch & Matthew E. Thornton & Brendan H. Grubbs & Nils O. Lindström, 2025. "Axial nephron fate switching demonstrates a plastic system tunable on demand," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63290-9
    DOI: 10.1038/s41467-025-63290-9
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    References listed on IDEAS

    as
    1. Jack Schnell & Zhen Miao & MaryAnne Achieng & Connor C. Fausto & Kari Koppitch & Lola Takhirov & Victoria Wang & Faith De Kuyper & Biao Huang & Megan Schreiber & Pedro Medina & Matthew E. Thornton & B, 2025. "Controlling nephron precursor differentiation to generate proximal-biased kidney organoids with emerging maturity," Nature Communications, Nature, vol. 16(1), pages 1-21, December.
    2. Zhen Miao & Michael S. Balzer & Ziyuan Ma & Hongbo Liu & Junnan Wu & Rojesh Shrestha & Tamas Aranyi & Amy Kwan & Ayano Kondo & Marco Pontoglio & Junhyong Kim & Mingyao Li & Klaus H. Kaestner & Katalin, 2021. "Single cell regulatory landscape of the mouse kidney highlights cellular differentiation programs and disease targets," Nature Communications, Nature, vol. 12(1), pages 1-17, December.
    3. Quan Zhou & Mingwei Liu & Xia Xia & Tongqing Gong & Jinwen Feng & Wanlin Liu & Yang Liu & Bei Zhen & Yi Wang & Chen Ding & Jun Qin, 2017. "A mouse tissue transcription factor atlas," Nature Communications, Nature, vol. 8(1), pages 1-15, April.
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