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2.
Biomed Res ; 29(3): 131-9, 2008 Jun.
Article in English | MEDLINE | ID: mdl-18614846

ABSTRACT

The cytoskeleton serves as a signal modulator for Ca2+ and cAMP-regulated cell functions including the secretion of ions and granule contents. The interaction between Ca2+ and cAMP signaling systems potentiates amylase secretion and suppresses Cl- secretion in the parotid glands. In this study, we investigated the role of the cytoskeleton in the modulation of Cl- and amylase secretion from rat parotid acinar cells upon activation of each intracellular signaling system and their interaction. Cytochalasin D markedly inhibited the Ca2+-activated outwardly rectifying Cl- current at positive membrane potentials and carbachol (CCh)-induced Cl- currents in the whole-cell configuration at -80 mV, whereas colchicine enhanced Cl- currents. Cytochalasin D, but not colchicine, markedly inhibited CCh-induced Cl- secretion. Synergistic actions of CCh and forskolin on Cl- and amylase secretion were observed even in the presence of cytochalasin D. These results suggest that the synergistic effects of Ca2+ and cAMP signaling systems on amylase and Cl- secretion do not require actin filament integrity but that secretion by the two signals themselves does require actin filament integrity.


Subject(s)
Amylases/metabolism , Chlorides/metabolism , Cytoskeleton/metabolism , Parotid Gland/metabolism , Animals , Carbachol/pharmacology , Colchicine/pharmacology , Cytochalasin D/pharmacology , Male , Parotid Gland/cytology , Parotid Gland/enzymology , Rats , Rats, Wistar
3.
Am J Physiol Gastrointest Liver Physiol ; 294(3): G738-47, 2008 Mar.
Article in English | MEDLINE | ID: mdl-18187520

ABSTRACT

Sympathetic stimulation induces weak salivation compared with parasympathetic stimulation. To clarify this phenomenon in salivary glands, we investigated cAMP-induced modulation of Ca(2+)-activated Cl(-) secretion from rat parotid and submandibular acinar cells because fluid secretion from salivary glands depends on the Cl(-) secretion. Carbachol (Cch), a Ca(2+)-increasing agent, induced hyperpolarization of the cells with oscillatory depolarization in the current clamp mode of the gramicidin-perforated patch recording. In the voltage clamp mode at -80 mV, Cch induced a bumetanide-sensitive oscillatory inward current, which was larger in rat submandibular acinar cells than in parotid acinar cells. Forskolin and IBMX, cAMP-increasing agents, did not induce any marked current, but they evoked a small nonoscillatory inward current in the presence of Cch and suppressed the Cch-induced oscillatory inward current in all parotid acinar cells and half (56%) of submandibular acinar cells. In the current clamp mode, forskolin + IBMX evoked a small nonoscillatory depolarization in the presence of Cch and reduced the amplitude of Cch-induced oscillatory depolarization in both acinar cells. The oscillatory inward current estimated at the depolarized membrane potential was suppressed by forskolin + IBMX. These results indicate that cAMP suppresses Ca(2+)-activated oscillatory Cl(-) secretion of parotid and submandibular acinar cells at -80 mV and possibly at the membrane potential during Cch stimulation. The suppression may result in the weak salivation induced by sympathetic stimulation.


Subject(s)
Carbachol/antagonists & inhibitors , Carbachol/pharmacology , Chlorides/metabolism , Colforsin/pharmacology , Muscarinic Agonists/pharmacology , Parotid Gland/metabolism , Submandibular Gland/metabolism , 1-Methyl-3-isobutylxanthine/pharmacology , Animals , Antiporters/metabolism , Chloride Channels/drug effects , Chloride Channels/metabolism , Cyclic AMP/metabolism , Gramicidin/pharmacology , Male , Parotid Gland/cytology , Parotid Gland/drug effects , Patch-Clamp Techniques , Phosphodiesterase Inhibitors/pharmacology , Rats , Rats, Wistar , Submandibular Gland/cytology , Submandibular Gland/drug effects
4.
Biochem Biophys Res Commun ; 319(2): 369-74, 2004 Jun 25.
Article in English | MEDLINE | ID: mdl-15178415

ABSTRACT

Elevations of the intracellular levels of cyclic nucleotides appear to cause the cation influx through gustatory cyclic nucleotide-gated (CNGgust) channels expressed in taste cells. Although changes in the oral pH may directly regulate the activity of the CNGgust channel, the mechanism of pH-dependent control of the channel is not understood. In the present study, we combined the whole-cell patch-clamp recording and the site-directed mutagenesis to investigate the effect of extracellular pH on the ion permeation through CNGgust channels expressed in HEK293 cells. Extracellular acidification strongly inhibited ion permeation through open CNGgust channels. Mutation of Glu(289) remarkably attenuated the pH-dependence of the channel, suggesting that Glu(289) in the pore-forming region is a major proton acceptor site. However, the mutant E289A-CNGgust channel possesses the other residual protonation/deprotonation site. The channel activity, tightly regulated by pH(o) and [cNMP](i), suggests the involvement of its pH(o)-dependent ion permeation in taste signal transduction events.


Subject(s)
Ion Channel Gating , Ion Channels/metabolism , Nucleotides/physiology , Taste Buds/metabolism , Animals , Cell Line , Humans , Hydrogen-Ion Concentration , Ion Channels/chemistry , Ion Channels/genetics , Patch-Clamp Techniques , Protons , Rats
5.
Eur J Oral Sci ; 111(5): 405-9, 2003 Oct.
Article in English | MEDLINE | ID: mdl-12974684

ABSTRACT

Carbachol (CCh) enlarges the luminal space in rat parotid intralobular ducts, but the mechanism of their enlargement remains obscure. We investigated the involvement of intracellular calcium ions in the enlargement of luminal space by monitoring the luminal space under optical sectioning in a confocal laser scanning microscope using sulforhodamine B. Carbachol increased the intracellular concentration of calcium ions ([Ca2+]i) and the inside diameter without any change in the outside diameter. Removal of extracellular calcium ions modulated CCh-induced changes in [Ca2+]i to transient, but did not markedly inhibit the CCh-induced increase in the inside diameter. Additional loading of BAPTA (1,2-bis (o-aminophenoxy-ethane-n,n,n',n'-tetraacetic acid) in the duct cells suppressed CCh-induced changes. Diphenylamine-2-carboxylate (DPC), but not cytochalasin D, calmodulin inhibitor or nitric oxide synthase inhibitor profoundly suppressed CCh-induced changes. These results suggest that CCh induces enlargement of the luminal space through the activation of DPC-sensitive channels by the release of calcium ions from the intracellular pool.


Subject(s)
Carbachol/pharmacology , Cholinergic Agonists/pharmacology , Parotid Gland/drug effects , Salivary Ducts/drug effects , Animals , Calcium/metabolism , Calcium Channel Blockers/pharmacology , Calcium Channels/drug effects , Calmodulin/pharmacology , Cytochalasin D/pharmacology , Extracellular Fluid/metabolism , Fluorescent Dyes , Intracellular Fluid/metabolism , Male , Nitric Oxide Synthase/antagonists & inhibitors , Nucleic Acid Synthesis Inhibitors/pharmacology , Rats , Rats, Wistar , Rhodamines , ortho-Aminobenzoates/pharmacology
6.
Eur J Cell Biol ; 81(9): 497-504, 2002 Sep.
Article in English | MEDLINE | ID: mdl-12416726

ABSTRACT

Fluid secretion is observed at the openings of ducts in the exocrine gland. It remains unclear whether the ducts are involved in fluid secretion in the salivary glands. In the present study, we investigated the exclusion of fluorescent dye from the duct lumen by carbachol (CCh) in isolated parotid intralobular duct segments to clarify the ability of the ducts for the fluid secretion. When the membrane-impermeable fluorescent dye, sulforhodamine, was added to the superfused extracellular solution, quantitative fluorescence images of the duct lumen were obtained under the optical sectioning at the level of the duct lumen using a confocal laser scanning microscope. CCh decreased the fluorescent intensity in the duct lumen during the superfusion of the fluorescent dye, and CCh flushed out small viscous substances stained with the fluorescent dye from isolated duct lumen, suggesting that CCh might induce fluid secretion in the duct, leading to the clearance of the dye and small stained clumps from the duct lumen. CCh-induced clearance of the fluorescent dye was divided into two phases by the sensitivity to external Ca2+ and methazolamide, an inhibitor for carbonic anhydrase. The initial phase was insensitive to these, and the subsequent late phase was sensitive to these. A major portion in the late phase was inhibited by removal of bicarbonate in the superfusion solution and DPC, but not low concentration of external Cl-, bumetanide or DIDS, suggesting that methazolamide-sensitive production of HCO3-, but not the Cl- uptake mechanism, might contribute to the CCh-induced clearance of the dye from the duct lumen. These results represent the first measurements of fluid movement in isolated duct segments, and suggest that carbachol might evoke fluid secretion possibly through Ca2+-activated, DPC-sensitive anion channels with HCO3- secretion in the rat parotid intralobular ducts.


Subject(s)
Bicarbonates/metabolism , Carbachol/metabolism , Methazolamide/metabolism , Parotid Gland/metabolism , Animals , Carbachol/pharmacology , Cholinergic Agonists/pharmacology , Fluorescent Dyes , Microscopy, Confocal , Parotid Gland/drug effects , Rats , Rhodamines , Staining and Labeling
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