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Clinical and Experimental Nephrology
Published in: Clinical and Experimental Nephrology 9/2020

Open Access 01-09-2020 | Central Diabetes Insipidus | Original article

Phosphorylation profile of human AQP2 in urinary exosomes by LC–MS/MS phosphoproteomic analysis

Authors: Masaki Sakai, Keiko Yamamoto, Hiroaki Mizumura, Tomoki Matsumoto, Yasuko Tanaka, Yumi Noda, Kenichi Ishibashi, Tadashi Yamamoto, Sei Sasaki

Published in: Clinical and Experimental Nephrology | Issue 9/2020

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Abstract

Background

Aquaporin-2 (AQP2) is a key water channel protein which determines the water permeability of the collecting duct. Multiple phosphorylation sites are present at the C-terminal of AQP2 including S256 (serine at 256 residue), S261, S264 and S/T269, which are regulated by vasopressin (VP) to modulate AQP2 trafficking. As the dynamics of these phosphorylations have been studied mostly in rodents, little is known about the phosphorylation of human AQP2 which has unique T269 in the place of S269 of rodent AQP2. Because AQP2 is excreted in urinary exosomes, the phosphoprotein profile of human AQP2 can be easily examined through urinary exosomes without any intervention.

Methods

Human urinary exosomes digested with trypsin or glutamyl endopeptidase (Glu-C) were examined by the liquid chromatography coupled with tandem mass spectrometry (LC–MS/MS) phosphoproteomic analysis.

Results

The most dominant phosphorylated AQP2 peptide identified was S256 phosphorylated form (pS256), followed by pS261 with less pS264 and far less pT269, which was confirmed by the western blot analyses using phosphorylated AQP2-specific antibodies. In a patient lacking circulating VP, administration of a VP analogue showed a transient increase (peak at 30–60 min) in excretion of exosomes with pS261 AQP2.

Conclusion

These data suggest that all phosphorylation sites of human AQP2 including T269 are phosphorylated and phosphorylations at S256 and S261 may play a dominant role in the urinary exosomal excretion of AQP2.
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Metadata
Title
Phosphorylation profile of human AQP2 in urinary exosomes by LC–MS/MS phosphoproteomic analysis
Authors
Masaki Sakai
Keiko Yamamoto
Hiroaki Mizumura
Tomoki Matsumoto
Yasuko Tanaka
Yumi Noda
Kenichi Ishibashi
Tadashi Yamamoto
Sei Sasaki
Publication date
01-09-2020
Publisher
Springer Singapore
Published in
Clinical and Experimental Nephrology / Issue 9/2020
Print ISSN: 1342-1751
Electronic ISSN: 1437-7799
DOI
https://doi.org/10.1007/s10157-020-01899-4

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