TY - JOUR
T1 - Impairment of angiogenesis and cell migration by targeted aquaporin-1 gene disruption
AU - Saadoun, Samira
AU - Papadopoulos, Marios C.
AU - Hara-Chikuma, Mariko
AU - Verkman, A. S.
N1 - Funding Information:
Acknowledgements This work was supported by grants from the Swiss National Science Foundation to F.M. and J.-L.F., from the Ernst and Lucie Schmidheiny Foundation (Geneva) to F.M., and from the Foundation for Medical Research (France) to C.A. The authors of this manuscript belong to the European Vascular Genomics Network (http://www.evgn.org), a Network of Excellence supported by the European Community’s sixth Framework Programme for Research, Priority 1. We would like to thank M. Kosco-Vilbois for helpful discussion in preparing the manuscript, and M.-L. Bochaton-Piallat (Pathology Department) for technical advice.
Funding Information:
Acknowledgements This work was funded by grants from the National Institutes of Health (to A.S.V.) and by a Wellcome Trust Clinician Scientist Fellowship (to M.C.P., sponsored by S. Krishna).
Copyright:
Copyright 2015 Elsevier B.V., All rights reserved.
PY - 2005/4/7
Y1 - 2005/4/7
N2 - Aquaporin-1 (AQP1) is a water channel protein expressed widely in vascular endothelia, where it increases cell membrane water permeability. The role of AQP1 in endothelial cell function is unknown.Here we show remarkably impaired tumour growth in AQP1-null mice after subcutaneous or intracranial tumour cell implantation, with reduced tumour vascularity and extensive necrosis. A new mechanism for the impaired angiogenesis was established from cell culture studies. Although adhesion and proliferation were similar in primary cultures of aortic endothelia from wild-type and from AQP1-null mice, cell migration was greatly impaired in AQP1-deficient cells, with abnormal vessel formation in vitro. Stable transfection of non-endothelial cells with AQP1 or with a structurally different water-selective trans porter (AQP4) accelerated cell migration and wound healing in vitro.Motile AQP1-expressing cells had prominent membrane ruffles at the leading edge with polarization of AQP1 protein to lamellipodia, where rapid water fluxes occur. Our findings support a fundamental role of water channels in cell migration, which is central to diverse biological phenomena including angiogenesis, wound healing, tumour spread and organ regeneration.
AB - Aquaporin-1 (AQP1) is a water channel protein expressed widely in vascular endothelia, where it increases cell membrane water permeability. The role of AQP1 in endothelial cell function is unknown.Here we show remarkably impaired tumour growth in AQP1-null mice after subcutaneous or intracranial tumour cell implantation, with reduced tumour vascularity and extensive necrosis. A new mechanism for the impaired angiogenesis was established from cell culture studies. Although adhesion and proliferation were similar in primary cultures of aortic endothelia from wild-type and from AQP1-null mice, cell migration was greatly impaired in AQP1-deficient cells, with abnormal vessel formation in vitro. Stable transfection of non-endothelial cells with AQP1 or with a structurally different water-selective trans porter (AQP4) accelerated cell migration and wound healing in vitro.Motile AQP1-expressing cells had prominent membrane ruffles at the leading edge with polarization of AQP1 protein to lamellipodia, where rapid water fluxes occur. Our findings support a fundamental role of water channels in cell migration, which is central to diverse biological phenomena including angiogenesis, wound healing, tumour spread and organ regeneration.
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U2 - 10.1038/nature03460
DO - 10.1038/nature03460
M3 - Article
C2 - 15815633
AN - SCOPUS:17144379334
SN - 0028-0836
VL - 434
SP - 786
EP - 792
JO - Nature
JF - Nature
IS - 7034
ER -