1. Academic Validation
  2. Claudin-14 regulates renal Ca⁺⁺ transport in response to CaSR signalling via a novel microRNA pathway

Claudin-14 regulates renal Ca⁺⁺ transport in response to CaSR signalling via a novel microRNA pathway

  • EMBO J. 2012 Apr 18;31(8):1999-2012. doi: 10.1038/emboj.2012.49.
Yongfeng Gong 1 Vijayaram Renigunta Nina Himmerkus Jiaqi Zhang Aparna Renigunta Markus Bleich Jianghui Hou
Affiliations

Affiliation

  • 1 Department of Internal Medicine, Washington University Renal Division, Washington University, St Louis, MO, USA.
Abstract

The paracellular Claudin channel of the thick ascending limb (TAL) of Henle is critical for CA(++) reabsorption in the kidney. Genome-wide association studies (GWASs) have identified claudin-14 associated with hypercalciuric nephrolithiasis. Here, we show that claudin-14 promoter activity and transcript are exclusively localized in the TAL. Under normal dietary condition, claudin-14 proteins are suppressed by two MicroRNA molecules (miR-9 and miR-374). Both MicroRNAs directly target the 3'-UTR of claudin-14 mRNA; induce its mRNA decay and translational repression in a synergistic manner. Through physical interaction, claudin-14 blocks the paracellular cation channel made of claudin-16 and -19, critical for CA(++) reabsorption in the TAL. The transcript and protein levels of claudin-14 are upregulated by high CA(++) diet, while downregulated by low CA(++) diet. Claudin-14 knockout Animals develop hypermagnesaemia, hypomagnesiuria, and hypocalciuria under high CA(++) dietary condition. MiR-9 and miR-374 transcript levels are regulated by extracellular CA(++) in a reciprocal manner as claudin-14. The CA(++) sensing receptor (CaSR) acts upstream of the microRNA-claudin-14 axis. Together, these data have established a key regulatory role for claudin-14 in renal CA(++) homeostasis.

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