Miwako Matsuki scite author profile

Aquaporins (AQPs) are a family of channel proteins that allow water or very small solutes to pass, functioning in tissues where the rapid and regulated transport of fluid is necessary, such as the kidney, lung, and salivary glands. Aquaporin-5 (AQP5) has been demonstrated to localize on the luminal surface of the acinar cells of the salivary glands. In this paper, we investigated the expression and function of AQP5 in the secretory granules of the rat parotid gland. AQP5 was detected in the secretory granule membranes by immunoblot analysis. The immunoelectron microscopy experiments confirmed that AQP5 was to be found in the secretory granule membrane. Anti-AQP5 antibody evoked lysis of the secretory granules but anti-aquaporin-1 antibody did not and AQP1 was not detected in the secretory granule membranes by immunoblot analysis. When chloride ions were removed from the solution prepared for suspending secretory granules, the granule lysis induced by anti-AQP5 antibody was inhibited. Furthermore, 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid, an anion channel blocker, blocked the anti-AQP5 antibody-induced secretory granule lysis. These results suggest that AQP5 is, expressed in the parotid gland secretory granule membrane and is involved in osmoregulation in the secretory granules.

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AQPs and Control of Vesicle Volume in Secretory Cells

Saito

Matsuki

2006

J Membrane Biol

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Aquaporins (AQPs) are a family of small, hydrophobic, integral membrane proteins. In mammals, they are expressed in many epithelia and endothelia and function as channels that permit water or small solutes to pass. Although the AQPs reside constitutively at the plasma membrane in most cell types, the presence of AQPs in intracellular organelles such as secretory granules and vesicles has currently been demonstrated. The secretory granules and vesicles contain secretory proteins, migrate to particular locations within the cell close to the plasma membrane and release their contents to the outside. During the process, including exocytosis, regulation of secretory granule or vesicle volume is important. This paper reviews the possible role of AQPs in secretory granules and vesicles.

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Morphological and Functional Changes in Cell Junctions During Secretory Stimulation in the Perfused Rat Submandibular Gland

Hashimoto

Murakami²,

Kanaseki³

et al. 2003

European Journal of Morphology

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To examine the influence of cholinergic and beta-adrenergic agents on paracellular transport, we applied confocal microscopy and freeze-fracture to the isolated, perfused submandibular gland of the rat. By confocal microscopy, perfusion of lucifer yellow through an arterial catheter, revealed a bright fluorescence in the basolateral spaces of acini, but not in the intercellular canaliculi. However, addition of isoproterenol on carbachol stimulation, induced lucifer yellow fluorescence in intercellular canaliculi. This finding indicates that isoproterenol is capable of opening the paracellular route. The tight junction strands surrounding intercellular canaliculi were visualized using freeze replicas. Fixation was carried out both by vascular perfusion with Karnovsky's solution and by metal contact rapid freezing with liquid helium. In the chemically-fixed specimens, the strand particles of tight junctions formed 2-5 lines at the P-face along most of the apical portion at rest. With carbachol/isoproterenol stimulation, the strand particles rearranged with free ends and terminal loops. In the rapidly frozen specimens, the strand particles were arranged more irregularly even in the resting state. The meshwork of strands became more disheveled and interrupted during carbachol/ isoproterenol stimulation. The present findings led us to conclude that: 1) the beta-adrenergic agent, isoproterenol, can open the paracellular transport. 2) in the rapidly frozen specimen, the tight junction strand particles are arranged roughly and become disheveled and interrupted during stimulation by carbachol/isoproterenol. These findings may be related to rearrangement of subcellular structures, especially of the actin filament network.

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Difference in distribution of membrane proteins between low- and high-density secretory granules in parotid acinar cells

Fujita-Yoshigaki

Katsumata

Matsuki

et al. 2006

Biochemical and Biophysical Research Communications

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Miwako Matsuki

Involvement of Aquaporin-5 Water Channel in Osmoregulation in Parotid Secretory Granules

AQPs and Control of Vesicle Volume in Secretory Cells

Morphological and Functional Changes in Cell Junctions During Secretory Stimulation in the Perfused Rat Submandibular Gland

Difference in distribution of membrane proteins between low- and high-density secretory granules in parotid acinar cells

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