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1 Department of Physiology, University of Leeds, Leeds LS2 9NQ, United Kingdom; and 2 Institute of Experimental Clinical Research and 3 Department of Cell Biology, Institute of Anatomy, University of Aarhus, DK-8000 Aarhus, Denmark
The discovery of the aquaporin family of water channels has
greatly improved our understanding of how water crosses epithelial cells, particularly in the kidney. The study of the mechanisms involved
in the regulation of collecting duct water permeability, in particular,
has advanced very rapidly since the identification and characterization
of aquaporin-2 (AQP2) in 1993. One of the more surprising findings has
been the dramatic long-term changes that are seen in the abundance of
this protein, as well as the recognition that these changes represent a
way of modulating the acute antidiuretic effects of vasopressin.
Furthermore, such changes seem to be of etiological and pathological
significance in a number of clinical disorders of water balance. This
review focuses on the various conditions in which AQP2 expression is
altered (either increased or decreased) and on what this can tell us
about the signals and mechanisms controlling these changes. Ultimately, this may be of great value in the clinical management of water balance
disorders. Evidence is also now beginning to emerge that there are
similar changes in the expression of other renal aquaporins, which had
previously been thought to provide an essentially constitutive water
permeability pathway, suggesting that they too should be considered as
regulatory factors in the control of body water balance.
collecting duct; water permeability; nephrogenic diabetes insipidus; water balance disorders; aquaporin-2
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