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

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

Nature communications (2020-04-23)
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 Christman, Moray J Campbell, David S Gardner, Sharyn D Baker, Alex Sparreboom, Rajgopal Govindarajan, Harpreet Singh, Taosheng Chen, Ming Poi, Katalin Susztak, Stuart R Cobb, Navjot Singh Pabla
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.

MATERIALS
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Product Description

Sigma-Aldrich
Anti-CDKL5 Antibody, clone 8F3.1, clone 8F3.1, from mouse