Human aquaporin-5 facilitates hydrogen peroxide permeation affecting adaption to oxidative stress and cancer cell migration

Claudia Rodrigues, Catarina Pimpão, Andreia F. Mósca, Ana S. Coxixo, Duarte Lopes, Inês Vieira Da Silva, Per Amstrup Pedersen, Fernando Antunes, Graça Soveral*

*Corresponding author for this work
19 Citations (Scopus)
22 Downloads (Pure)

Abstract

Reactive oxygen species (ROS), including H2O2, contribute to oxidative stress and may cause cancer initiation and progression. However, at low concentrations, H2O2 can regulate signaling pathways modulating cell growth, differentiation, and migration. A few mammalian aquaporins (AQPs) facilitate H2O2 diffusion across membranes and participate in tumorigenesis. AQP3 and AQP5 are strongly expressed in cancer tissues and AQP3-mediated H2O2 transport has been related to breast cancer cell migration, but studies with human AQP5 are lacking. Here, we report that, in addition to its established water permeation capacity, human AQP5 facilitates transmembrane H2O2 diffusion and modulates cell growth of AQP5-transformed yeast cells in response to oxidative stress. Mutagenesis studies revealed that residue His173 located in the selective filter is crucial for AQP5 permeability, and interactions with phosphorylated Ser183 may regulate permeation through pore blockage. Moreover, in human pancreatic cancer cells, the measured AQP5-mediated H2O2 influx rate indicates the presence of a highly effcient peroxiporin activity. Cell migration was similarly suppressed by AQP3 or AQP5 gene silencing and could be recovered by external oxidative stimuli. Altogether, these results unveiled a major role for AQP5 in dynamic fine-tuning of the intracellular H2O2 concentration, and consequently in activating signaling networks related to cell survival and cancer progression, highlighting AQP5 as a promising drug target for cancer therapies.

Original languageEnglish
Article number932
JournalCancers
Volume11
Issue number7
Number of pages17
ISSN2072-6694
DOIs
Publication statusPublished - 2019

Keywords

  • Aquaporin
  • Cancer
  • Cell migration
  • Hydrogen peroxide
  • Oxidative stress
  • Permeability

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