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A kinome-wide screen identifies a CDKL5-SOX9 regulatory axis in epithelial cell death and kidney injury

Author

Listed:
  • Ji Young Kim

    (The Ohio State University)

  • Yuntao Bai

    (The Ohio State University)

  • Laura A. Jayne

    (The Ohio State University)

  • Ralph D. Hector

    (University of Edinburgh)

  • Avinash K. Persaud

    (The Ohio State University
    The Ohio State University)

  • Su Sien Ong

    (St. Jude Children’s Research Hospital)

  • Shreshtha Rojesh

    (University of Pennsylvania)

  • Radhika Raj

    (The Ohio State University)

  • Mei Ji He Ho Feng

    (The Ohio State University)

  • Sangwoon Chung

    (Davis Heart and Lung Research Institute)

  • Rachel E. Cianciolo

    (The Ohio State University)

  • John W. Christman

    (Davis Heart and Lung Research Institute)

  • Moray J. Campbell

    (The Ohio State University)

  • David S. Gardner

    (University of Nottingham)

  • Sharyn D. Baker

    (The Ohio State University)

  • Alex Sparreboom

    (The Ohio State University)

  • Rajgopal Govindarajan

    (The Ohio State University)

  • Harpreet Singh

    (The Ohio State University)

  • Taosheng Chen

    (St. Jude Children’s Research Hospital)

  • Ming Poi

    (The Ohio State University
    The Ohio State University)

  • Katalin Susztak

    (University of Pennsylvania)

  • Stuart R. Cobb

    (University of Edinburgh)

  • Navjot Singh Pabla

    (The Ohio State University)

Abstract

Renal tubular epithelial cells (RTECs) perform the essential function of maintaining the constancy of body fluid composition and volume. Toxic, inflammatory, or hypoxic-insults to RTECs can cause systemic fluid imbalance, electrolyte abnormalities and metabolic waste accumulation- manifesting as acute kidney injury (AKI), a common disorder associated with adverse long-term sequelae and high mortality. Here we report the results of a kinome-wide RNAi screen for cellular pathways involved in AKI-associated RTEC-dysfunction and cell death. Our screen and validation studies reveal an essential role of Cdkl5-kinase in RTEC cell death. In mouse models, genetic or pharmacological Cdkl5 inhibition mitigates nephrotoxic and ischemia-associated AKI. We propose that Cdkl5 is a stress-responsive kinase that promotes renal injury in part through phosphorylation-dependent suppression of pro-survival transcription regulator Sox9. These findings reveal a surprising non-neuronal function of Cdkl5, identify a pathogenic Cdkl5-Sox9 axis in epithelial cell-death, and support CDKL5 antagonism as a therapeutic approach for AKI.

Suggested Citation

  • Ji Young Kim & Yuntao Bai & Laura A. Jayne & Ralph D. Hector & Avinash K. Persaud & Su Sien Ong & Shreshtha Rojesh & Radhika Raj & Mei Ji He Ho Feng & Sangwoon Chung & Rachel E. Cianciolo & John W. Ch, 2020. "A kinome-wide screen identifies a CDKL5-SOX9 regulatory axis in epithelial cell death and kidney injury," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15638-6
    DOI: 10.1038/s41467-020-15638-6
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