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Sodium–calcium exchanger 1 is the key molecule for urinary potassium excretion against acute hyperkalemia

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  • Wakana Shoda
  • Naohiro Nomura
  • Fumiaki Ando
  • Hideaki Tagashira
  • Takahiro Iwamoto
  • Akihito Ohta
  • Kiyoshi Isobe
  • Takayasu Mori
  • Koichiro Susa
  • Eisei Sohara
  • Tatemitsu Rai
  • Shinichi Uchida

Abstract

The sodium (Na+)-chloride cotransporter (NCC) expressed in the distal convoluted tubule (DCT) is a key molecule regulating urinary Na+ and potassium (K+) excretion. We previously reported that high-K+ load rapidly dephosphorylated NCC and promoted urinary K+ excretion in mouse kidneys. This effect was inhibited by calcineurin (CaN) and calmodulin inhibitors. However, the detailed mechanism through which high-K+ signal results in CaN activation remains unknown. We used Flp-In NCC HEK293 cells and mice to evaluate NCC phosphorylation. We analyzed intracellular Ca2+ concentration ([Ca2+]in) using live cell Ca2+ imaging in HEK293 cells. We confirmed that high-K+-induced NCC dephosphorylation was not observed without CaN using Flp-In NCC HEK29 cells. Extracellular Ca2+ reduction with a Ca2+ chelator inhibited high-K+-induced increase in [Ca2+]in and NCC dephosphorylation. We focused on Na+/Ca2+ exchanger (NCX) 1, a bidirectional regulator of cytosolic Ca2+ expressed in DCT. We identified that NCX1 suppression with a specific inhibitor (SEA0400) or siRNA knockdown inhibited K+-induced increase in [Ca2+]in and NCC dephosphorylation. In a mouse study, SEA0400 treatment inhibited K+-induced NCC dephosphorylation. SEA0400 reduced urinary K+ excretion and induced hyperkalemia. Here, we identified NCX1 as a key molecule in urinary K+ excretion promoted by CaN activation and NCC dephosphorylation in response to K+ load.

Suggested Citation

  • Wakana Shoda & Naohiro Nomura & Fumiaki Ando & Hideaki Tagashira & Takahiro Iwamoto & Akihito Ohta & Kiyoshi Isobe & Takayasu Mori & Koichiro Susa & Eisei Sohara & Tatemitsu Rai & Shinichi Uchida, 2020. "Sodium–calcium exchanger 1 is the key molecule for urinary potassium excretion against acute hyperkalemia," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-23, June.
    • Handle: RePEc:plo:pone00:0235360
    DOI: 10.1371/journal.pone.0235360
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    1. Fumiaki Ando & Eisei Sohara & Tetsuji Morimoto & Naofumi Yui & Naohiro Nomura & Eriko Kikuchi & Daiei Takahashi & Takayasu Mori & Alain Vandewalle & Tatemitsu Rai & Sei Sasaki & Yoshiaki Kondo & Shini, 2016. "Wnt5a induces renal AQP2 expression by activating calcineurin signalling pathway," Nature Communications, Nature, vol. 7(1), pages 1-12, December.
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