Publications (3)0.99 Total impact
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Article: Relationship of fluid and mucin secretion to morphological changes in the perfused rat submandibular gland.
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ABSTRACT: Transport of electrolytes/water and exocytosis are activated by elevation of the cytosolic Ca(2+) concentration and are potentiated by elevation of cytosolic cyclic AMP. To correlate mucin and fluid secretion with morphological changes, rat submandibular glands were vascularly perfused and the fluid secretion and N-acetylgalactosamine in the saliva were measured during stimulation with various concentrations of carbachol (CCh) and/or isoproterenol (ISP). Single stimulation with 1 microM CCh induced a transient increase of N-acetyl galactosamine followed by a decline to a low level during sustained stimulation. The overload of 1 microM ISP increased secretion of N-acetyl galactosamine to a higher sustained level of 40-50 microg/g-min. However, at 1 microM CCh, fluid secretion was maintained at the same level during stimulation and even overload of 1 microM ISP did not significantly affect its level, whereas addition of 0.5 microM ISP to the gland stimulated with 0.1 microM CCh increased fluid secretion. Morphological observation was carried out by HRSEM and TEM. Combination of CCh and ISP in different concentrations resulted in distinctive morphological changes which reflect fluid secretion and mucin secretion. The kinetics of ATP and creatine phosphate (PCr) were measured using P-31 NMR, which indicated that the potentiation of fluid secretion is limited under a higher level of CCh stimulation due to a limited energy supply.European Journal of Morphology 11/2002; 40(4):203-7. -
Article: Relationship between amylase and fluid secretion in the isolated perfused whole parotid gland of the rat.
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ABSTRACT: Whole gland perfusion technique was applied to rat parotid glands to assess whether amylase affects fluid secretion. Control perfusion without any secretagogue evoked no spontaneous secretion. Carbachol (CCh 1 microM) induced both amylase and fluid secretion with distinctive kinetics. Fluid secretion occurred constantly at 40-120 microliter/g-min (average plateau was 60 microliter/g-min), whereas amylase secretion exhibited an initial peak (10 mg maltose/30 s per g wet w. of the gland), followed by a rapid decrease to reach a plateau level of 1 mg maltose/30 s later than 1.5-2 min. Isoproterenol (Isop 1 microM) alone did not induce fluid secretion although it evoked amylase secretion as measured in isolated perfused acini. Addition of Isop during CCh stimulation evoked a rapid and large rise in amylase secretion to 15 mg maltose/30 s accompanied by the increase in oxygen consumption. However, the fluid secretion exhibited a rather gradual decrease. These findings suggest that control of salivary fluid secretion is independent of the amylase secretion system induced by CCh and/or Isop. Morphological observations carried out by HR SEM and TEM revealed exocytotic profiles following Isop stimulation. CCh stimulation alone seldom showed -exocytotic profiles, suggesting a low incidence of amylase secretion during copious fluid secretion. Combined stimulation of CCh and Isop induced both vacuolation and exocytosis along intercellular canaliculi. During washout of secretagogues, lysosomal digestion of excess membrane took place.European Journal of Morphology 11/2000; 38(4):243-7. -
Article: Fluid and amylase secretion by perfused parotid gland: physio-morphological approach.
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ABSTRACT: Whole gland perfusion technique was applied to rat parotid glands to assess whether amylase affects fluid secretion. Control perfusion without any secretagogue evoked no spontaneous secretion. Carbachol (CCh 1 microM) induced both amylase and fluid secretion with distinctive kinetics. Fluid secretion occurred constantly around 60 microL/g-min, whereas amylase secretion exhibited an initial peak, followed by a rapid decrease to reach a plateau. Isoproterenol (Isop 1 microM) alone did not induce fluid secretion although it evoked amylase secretion as measured in isolated perfused acini. Addition of Isop during CCh stimulation evoked a rapid and large rise in amylase secretion accompanied by small increase in oxygen consumption. Morphological observations carried out by HR SEM and TEM revealed exocytotic profiles following Isop stimulation. CCh stimulation alone seldom showed exocytotic profiles, suggesting a low incidence of amylase secretion during copious fluid secretion. Combined stimulation of CCh and Isop induced both vacuolation and exocytosis along intercellular canaliculi. These findings suggest that control of salivary fluid secretion is independent of the amylase secretion system induced by CCh and/or Isop.Journal of Korean Medical Science 09/2000; 15 Suppl:S38-9. · 0.99 Impact Factor
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Institutions
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2000–2002
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National Institute for Physiological Sciences
Okazaki, Aichi-ken, Japan
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