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Target Concepts:
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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Trafficking of
water channel aquaporin-2
(AQP2) to the apical membrane and its vasopressin and protein kinase A (PKA)-dependent regulation in renal collecting ducts is critical for body water homeostasis. We previously identified an AQP2 binding protein complex including actin and
tropomyosin
-5b (TM5b). We show that dynamic interactions between AQP2 and the actin cytoskeleton are critical for initiating AQP2 apical targeting. Specific binding of AQP2 to G-actin in reconstituted liposomes is negatively regulated by PKA phosphorylation. Dual color fluorescence cross-correlation spectroscopy reveals local AQP2 interaction with G-actin in live epithelial cells at single-molecule resolution. Cyclic adenosine monophosphate signaling and AQP2 phosphorylation release AQP2 from G-actin. In turn, AQP2 phosphorylation increases its affinity to TM5b, resulting in reduction of TM5b bound to F-actin, subsequently inducing F-actin destabilization. RNA interference-mediated knockdown and overexpression of TM5b confirm its inhibitory role in apical trafficking of AQP2. These findings indicate a novel mechanism of channel protein trafficking, in which the channel protein itself critically regulates local actin reorganization to initiate its movement.
...
PMID:Reciprocal interaction with G-actin and tropomyosin is essential for aquaporin-2 trafficking. 1867 5
Cell volume regulation is particularly important for kidney
collecting duct
cells. These cells are the site of water reabsorption regulated by vasopressin and aquaporin-2 (AQP2) trafficking to the apical membrane, and subject to changes in osmolality. Here, we examined the role of AQP2 in regulatory volume decrease (RVD), which is a cellular defensive process against hypotonic stress. Stable expression of AQP2 increases RVD in MDCK cells and its phosphorylation levels decrease during the RVD process. We then examined the involvement of AQP2 phosphorylation at serine 256 and serine 261 in RVD using cells stably expressing the phosphorylation mutants. Both S256A- and S256D-AQP2 decrease RVD compared to wild type (WT)-AQP2 although only S256A mutation decreases the initial osmotic swelling, indicating that AQP2-enhanced RVD is independent of osmotic swelling induced by the water permeability of AQP2. S261A and S261D mutations do not induce changes compared with WT-AQP2. These findings indicate that switching between phosphorylation and dephosphorylation at S256 is important for RVD. We previously reported that AQP2 interacts with
tropomyosin
5b (TM5b), which regulates actin stability. AQP2 interactions with TM5b are rapidly increased by hypotonicity and then decreased, which are consistent with AQP2 phosphorylation levels. Knockdown and overexpression of TM5b show its essential role in WT-AQP2-enhanced RVD. RVD in S256A- and S256D-AQP2-expressing cells is not changed by TM5b knockdown or overexpression. The present study shows that AQP2 regulates RVD via TM5b and switching between phosphorylation and dephosphorylation at S256 in AQP2 is critical for this process.
...
PMID:Aquaporin-2 regulates cell volume recovery via tropomyosin. 1965 Dec 34
