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  • Title: Effect on stability, degradation, expression, and targeting of aquaporin-2 water channel by hyperosmolality in renal epithelial cells.
    Author: Umenishi F, Narikiyo T, Schrier RW.
    Journal: Biochem Biophys Res Commun; 2005 Dec 23; 338(3):1593-9. PubMed ID: 16288724.
    Abstract:
    To investigate the stability, degradation, expression, and targeting of aquaporin-2 (AQP2) by hyperosmolality, stably transfected mIMCD-3 cells expressing AQP2 (AQP2/IMCD3) were generated. In AQP2/IMCD3 cells, both nonglycosylated (ng-AQP2) and glycosylated (g-AQP2) forms were detected by immunoblot. The stability of ng-AQP2 decreased with the lapse of time, whereas that of g-AQP2 was stable. NaCl, but not urea, destabilized ng-AQP2. The half-life of ng-AQP2 in isotonic conditions was approximately 5 h, whereas that in medium supplemented with NaCl was approximately 1.5 h. Urea enhanced it compared to isotonic conditions. These findings indicate that the stability of ng-AQP2 is enhanced by urea, but not NaCl. The degradation of ng-AQP2 was dependent on proteasome and lysosome degradation pathways. The expression of ng-AQP2 was increased by hyperosmolality. Cell surface biotinylation experiments revealed that hyperosmolality enhanced the apical membrane insertion of ng-AQP2. These results indicate that hyperosmolality plays an important role in the stability, degradation, expression, and targeting of ng-AQP2.
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