Takahiro Hasegawa scite author profile

Aquaporins (AQPs) are membrane proteins serving in the transfer of water and small solutes across cellular membranes. AQPs play a variety of roles in the body such as urine formation, prevention from dehydration in covering epithelia, water handling in the bloodbrain barrier, secretion, conditioning of the sensory system, cell motility and metastasis, formation of cell junctions, and fat metabolism. The kidney plays a central role in water homeostasis in the body. At least seven isoforms, namely AQP1, AQP2, AQP3, AQP4, AQP6, AQP7, and AQP11, are expressed. Among them, AQP2, the anti-diuretic hormone (ADH)-regulated water channel, plays a critical role in water reabsorption. AQP2 is expressed in principal cells of connecting tubules and collecting ducts, where it is stored in Rab11-positive storage vesicles in the basal state. Upon ADH stimulation, AQP2 is translocated to the apical plasma membrane, where it serves in the inXux of water. The translocation process is regulated through the phosphorylation of AQP2 by protein kinase A. As soon as the stimulation is terminated, AQP2 is retrieved to early endosomes, and then transferred back to the Rab 11-positive storage compartment. Some AQP2 is secreted via multivesicular bodies into the urine as exosomes. Actin plays an important role in the intracellular traYcking of AQP2. Recent Wndings have shed light on the molecular basis that controls the traYcking of AQP2.

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Regulation of Water Absorption in the Frog Skins by Two Vasotocin-Dependent Water-Channel Aquaporins, AQP-h2 and AQP-h3

Hasegawa

Tanii

Suzuki

et al. 2003

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A new frog aquaporin (AQP) cDNA was cloned from a cDNA library constructed from the ventral skin of the tree frog Hyla japonica. This AQP (Hyla AQP-h2) consisted of 268 amino acid residues with a high homology to mammalian AQP2. The predicted amino acid sequence contained the two conserved Asn-Pro-Ala motifs found in all the major intrinsic protein family members and the putative six transmembrane domains. The sequence also contained a mercurial compound: cysteine, one potential N-glycosylation site at Asn-124, and a putative phosphorylation site recognized by protein kinase A at Ser-262. In a swelling assay using Xenopus oocytes, AQP-h2 facilitated water permeability, especially in response to cAMP. Expression of AQP-h2 mRNA was restricted to several tissues including the ventral skin, kidney, and urinary bladder; but with immunofluorescence staining using an antipeptide antibody (ST-140) against the AQP-h2 protein, immunopositive cells were found only in the ventral skin and urinary bladder. In the ventral pelvic skin, the label for AQP-h2 was localized in the entire plasma membrane of the granular cells beneath the outmost layer of the skin and in the basolateral membrane of the granular cells in this layer. In response to vasotocin, however, the label for AQP-h2 became more intense in the apical membrane in the granular cells of the outermost layer, similar to the case for the earlier studied AQP-h3, which was specifically expressed in the ventral skin. Taken together, these findings suggest that not only AQP-h3, but also AQP-h2 acts as a regulator of the water balance in this frog.

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Preparation of carbon gel microspheres containing silicon powder for lithium ion battery anodes

Hasegawa

Mukai

Shirato

et al. 2004

Carbon

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Amphibian aquaporins and adaptation to terrestrial environments: A review

Suzuki

Hasegawa

Ogushi

et al. 2007

Comparative Biochemistry and Physiology Part A: Molecular &

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