Chieko Miura scite author profile

Background: Anti-allergic drugs, such as tranilast and ketotifen, inhibit the release of chemokines from mast cells. However, we know little about their direct effects on the exocytotic process of mast cells. Since exocytosis in mast cells can be monitored electrophysiologically by changes in the whole-cell membrane capacitance (Cm), the absence of such changes by these drugs indicates their mast cell-stabilizing properties. Methods: Employing the standard patch-clamp whole-cell recording technique in rat peritoneal mast cells, we examined the effects of tranilast and ketotifen on the Cm during exocytosis. Using confocal imaging of a water-soluble fluorescent dye, lucifer yellow, we also examined their effects on the deformation of the plasma membrane. Results: Relatively lower concentrations of tranilast (100, 250 µM) and ketotifen (1, 10 µM) did not significantly affect the GTP-γ-S-induced increase in the Cm. However, higher concentrations of tranilast (500 µM, 1 mM) and ketotifen (50, 100 µM) almost totally suppressed the increase in the Cm, and washed out the trapping of the dye on the surface of the mast cells. Compared to tranilast, ketotifen required much lower doses to similarly inhibit the degranulation of mast cells or the increase in the Cm. Conclusions: This study provides electrophysiological evidence for the first time that tranilast and ketotifen dose-dependently inhibit the process of exocytosis, and that ketotifen is more potent than tranilast in stabilizing mast cells. The mast cell-stabilizing properties of these drugs may be attributed to their ability to counteract the plasma membrane deformation in degranulating mast cells.

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In vivo corrosion behaviour of magnesium alloy in association with surrounding tissue response in rats

Miura

Shimizu

Imai

et al. 2016

Biomed. Mater.

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Biodegradable magnesium (Mg) alloys are the most promising candidates for osteosynthesis devices. However, their in vivo corrosion behaviour has not been fully elucidated. The aim of this study was to clarify the influence of the physiological environment surrounding Mg alloys on their corrosion behaviour. A Mg-1.0Al alloy with a fine-grained structure was formed into plates using titanium (Ti) as a control. These plates were implanted into the subperiosteum in the head, subcutaneous tissue of the back, and in the muscle of the femur of rats for 1, 2 and 4 weeks. The volumes of the remaining Mg alloy and of the insoluble salt deposition and gas cavities around the Mg alloy were determined by microtomography, and the volume losses were calculated. Then, the tissue response around the plates in each implantation site was examined histopathologically, and its relation to the respective volume loss was analyzed. These analyses determined that the Mg alloy was corroded fastest in the head, at an intermediate level in the back, and slowest in the femur. The insoluble salt deposition at the Mg alloy surface had no influence on the volume loss. Gas cavities formed around the Mg alloy at all implantation sites and decreased after 4 weeks. Histopathological examination revealed that the Mg alloy exhibited good biocompatibility, as was seen with Ti. In addition, vascularized fibrous capsules formed around the plates and became mature with time. Notably, the volume loss in the different anatomical locations correlated with capsule thickness. Together, our results suggest that, to facilitate the successful clinical application of Mg alloys, it will be necessary to further comprehend their interactions with specific in vivo environments.

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Synthetic study of peptide aldehydes.

Itô¹,

Takahashi²,

Miura³

et al. 1975

CHEMICAL & PHARMACEUTICAL BULLETIN

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Initial organ distribution and biological safety of Mg ²⁺ released from a Mg alloy implant

et al. 2018

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Magnesium (Mg) alloys are considered promising materials for biodegradable medical devices; however, the initial effects and distribution of released Mg ions following implantation are unclear. This is addressed in the present study, using two types of Mg alloys implanted into rats. An in vitro immersion test was first carried out to quantify Mg ions released from the alloys at early stages. Based on these data, we performed an in vivo experiment in which large amounts of alloys were subcutaneously implanted into the backs of rats for 1, 5, 10, and 25 h. Mg accumulation in organs was measured by inductively coupled plasma mass spectrometry. In vivo, blood and urine Mg concentrations were higher in rats receiving the implants than in controls after 1 h; however, the levels were within clinically accepted guidelines. The Mg concentration in bone was significantly higher in the 25 h implanted group than in the other groups. Our results suggest that homeostasis is maintained by urinary excretion and bone accumulation of released Mg ions in response to sudden changes in Mg ion concentration in the body fluid in a large number of Mg alloy implants at the early stages.

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Home sleep monitor for detecting apnea episodes by nasal flow and tracheal sound recordings.

Hida

Miki

Kikuchi

et al. 1988

Tohoku J. Exp. Med.

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Chieko Miura

Anti-Allergic Drugs Tranilast and Ketotifen Dose-Dependently Exert Mast Cell-Stabilizing Properties

In vivo corrosion behaviour of magnesium alloy in association with surrounding tissue response in rats

Synthetic study of peptide aldehydes.

Initial organ distribution and biological safety of Mg ²⁺ released from a Mg alloy implant

Home sleep monitor for detecting apnea episodes by nasal flow and tracheal sound recordings.

Contact Info

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Resources

About

Chieko Miura

Anti-Allergic Drugs Tranilast and Ketotifen Dose-Dependently Exert Mast Cell-Stabilizing Properties

In vivo corrosion behaviour of magnesium alloy in association with surrounding tissue response in rats

Synthetic study of peptide aldehydes.

Initial organ distribution and biological safety of Mg 2+ released from a Mg alloy implant

Home sleep monitor for detecting apnea episodes by nasal flow and tracheal sound recordings.

Contact Info

Product

Resources

About

Initial organ distribution and biological safety of Mg ²⁺ released from a Mg alloy implant