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244 results on '"Kojima, Akiko"'

1. Prediction of anesthetic torsadogenicity using a human ventricular cell model

Author

Kojima, Akiko, Fukushima, Yutaka, and Matsuura, Hiroshi

Subjects
Dexmedetomidine -- Models, Arrhythmia -- Models, Enflurane -- Models, Health
Abstract

This simulation study was designed to predict the torsadogenicity of sevoflurane and propofol in healthy control, as well as type 1 and type 2 long QT syndrome (LQT1 and LQT2, respectively), using the O'Hara-Rudy dynamic model. LQT1 and LQT2 models were simulated by decreasing the conductances of slowly and rapidly activating delayed rectifier K.sup.+ currents (I.sub.Ks and I.sub.Kr, respectively) by 50%, respectively. Action potential duration at 50% repolarization level (APD.sub.50) and diastolic intracellular Ca.sup.2+ concentration were measured in epicardial cell during administration of sevoflurane (1 ~ 5%) and propofol (1 ~ 10 [mu]M). Torsadogenicity can be predicted from the relationship between APD.sub.50 and diastolic intracellular Ca.sup.2+ concentration, which is classified by the decision boundary. Whereas the relationships in control and LQT1 models were distributed on nontorsadogenic side in the presence of sevoflurane at all tested concentrations, those in LQT2 models were shifted to torsadogenic side by concentrations of [greater than or equal to] 2%. In all three models, propofol shifted the relationships in a direction away from the decision boundary on nontorsadogenic side. Our findings suggest that sevoflurane, but not propofol, exerts torsadogenicity in patients with reduced I.sub.Kr, such as LQT2 patients. Caution should be paid to the occurrence of arrhythmia during sevoflurane anesthesia in patients with reduced I.sub.Kr., Author(s): Akiko Kojima [sup.1], Yutaka Fukushima [sup.1], Hiroshi Matsuura [sup.2] Author Affiliations: (1) https://ror.org/00d8gp927, grid.410827.8, 0000 0000 9747 6806, Department of Anesthesiology, Shiga University of Medical Science, , 520-2192, Otsu, [...]

Published
2023
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26. Cigarette Smoking Cessation Temporarily Enhances the Release of Phosphorylated-HSP27 from Human Platelets

Author

Onuma, Takashi, primary, Iida, Mami, additional, Kito, Yuko, additional, Tanabe, Kumiko, additional, Kojima, Akiko, additional, Nagase, Kiyoshi, additional, Uematsu, Kodai, additional, Enomoto, Yukiko, additional, Doi, Tomoaki, additional, Tokuda, Haruhiko, additional, Ogura, Shinji, additional, Iwama, Toru, additional, Kozawa, Osamu, additional, and Iida, Hiroki, additional

Published
2020
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28. Feasibility and acceptability of cognitive rehabilitation during the acute phase of schizophrenia

Author

Nemoto, Takahiro, primary, Takeshi, Kiyoaki, additional, Niimura, Hidehito, additional, Tobe, Miki, additional, Ito, Ryosuke, additional, Kojima, Akiko, additional, Saito, Hiroko, additional, Funatogawa, Tomoyuki, additional, Yamaguchi, Taiju, additional, Katagiri, Naoyuki, additional, Tsujino, Naohisa, additional, and Mizuno, Masafumi, additional

Published
2020
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29. Olive polyphenol reduces the collagen-elicited release of phosphorylated HSP27 from human platelets

Author

Mizutani, Daisuke, primary, Onuma, Takashi, additional, Tanabe, Kumiko, additional, Kojima, Akiko, additional, Uematsu, Kodai, additional, Nakashima, Daiki, additional, Doi, Tomoaki, additional, Enomoto, Yukiko, additional, Matsushima-Nishiwaki, Rie, additional, Tokuda, Haruhiko, additional, Ogura, Shinji, additional, Iida, Hiroki, additional, Kozawa, Osamu, additional, and Iwama, Toru, additional

Published
2020
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31. Characterization and functional role of rapid- and slow-activating delayed rectifier K+ currents in atrioventricular node cells of guinea pigs.

Author

Yuasa, Mayumi, Kojima, Akiko, Mi, Xinya, Ding, Wei-Guang, Omatsu-Kanbe, Mariko, Kitagawa, Hirotoshi, and Matsuura, Hiroshi

Subjects
GUINEA pigs, ISOPROTERENOL
Abstract

The atrioventricular (AV) node is the only conduction pathway where electrical impulse can pass from atria to ventricles and exhibits spontaneous automaticity. This study examined the function of the rapid- and slow-activating delayed rectifier K+ currents (IKr and IKs) in the regulation of AV node automaticity. Isolated AV node cells from guinea pigs were current- and voltage-clamped to record the action potentials and the IKr and IKs current. The expression of IKr or IKs was confirmed in the AV node cells by immunocytochemistry, and the positive signals of both channels were localized mainly on the cell membrane. The basal spontaneous automaticity was equally reduced by E4031 and HMR-1556, selective blockers of IKr and IKs, respectively. The nonselective β-adrenoceptor agonist isoproterenol markedly increased the firing rate of action potentials. In the presence of isoproterenol, the firing rate of action potentials was more effectively reduced by the IKs inhibitor HMR-1556 than by the IKr inhibitor E4031. Both E4031 and HMR-1556 prolonged the action potential duration and depolarized the maximum diastolic potential under basal and β-adrenoceptor–stimulated conditions. IKr was not significantly influenced by β-adrenoceptor stimulation, but IKs was concentration-dependently enhanced by isoproterenol (EC50: 15 nM), with a significant negative voltage shift in the channel activation. These findings suggest that both the IKr and IKs channels might exert similar effects on regulating the repolarization process of AV node action potentials under basal conditions; however, when the β-adrenoceptor is activated, IKs modulation may become more important. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Elevation of propofol sensitivity of cardiac IKs channel by KCNE1 polymorphism D85N.

Author

Kojima, Akiko, Mi, Xinya, Fukushima, Yutaka, Ding, Wei‐Guang, Omatsu‐Kanbe, Mariko, Matsuura, Hiroshi, Ding, Wei-Guang, and Omatsu-Kanbe, Mariko

Subjects
*PROPOFOL, *SINGLE nucleotide polymorphisms, *GENETIC polymorphisms, *ION channels, *POTASSIUM, *MEMBRANE proteins, *EPITHELIAL cells, *ANIMALS, *MICE, *PHARMACODYNAMICS
Abstract

Background and Purpose: The slowly activating delayed rectifier K+ channel (IKs ), composed of pore-forming KCNQ1 α-subunits and ancillary KCNE1 β-subunits, regulates ventricular repolarization in human heart. Propofol, at clinically used concentrations, modestly inhibits the intact (wild-type) IKs channels and is therefore unlikely to appreciably prolong QT interval in ECG during anaesthesia. However, little information is available concerning the inhibitory effect of propofol on IKs channel associated with its gene variants implicated in QT prolongation. The KCNE1 single nucleotide polymorphism leading to D85N is associated with drug-induced QT prolongation and therefore regarded as a clinically important genetic variant. This study examined whether KCNE1-D85N affects the sensitivity of IKs to inhibition by propofol.Experimental Approach: Whole-cell patch-clamp and immunostaining experiments were conducted in HEK293 cells and/or mouse cardiomyocyte-derived HL-1 cells, transfected with wild-type KCNQ1, wild-type or variant KCNE1 cDNAs.Key Results: Propofol inhibited KCNQ1/KCNE1-D85N current more potently than KCNQ1/KCNE1 current in HEK293 cells and HL-1 cells. Immunostaining experiments in HEK293 cells revealed that pretreatment with propofol (10 μM) did not appreciably affect cell membrane expression of KCNQ1 and KCNE1 proteins in KCNQ1/KCNE1 and KCNQ1/KCNE1-D85N channels.Conclusion and Implications: The KCNE1 polymorphism D85N significantly elevates the sensitivity of IKs to inhibition by propofol. This study detects a functionally important role of KCNE1-D85N polymorphism in conferring genetic susceptibility to propofol-induced QT prolongation and further suggests the possibility that the inhibitory action of anaesthetics on ionic currents becomes exaggerated in patients carrying variants in genes encoding ion channels. [ABSTRACT FROM AUTHOR]

Published
2021
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36. Feasibility and acceptability of cognitive rehabilitation during the acute phase of schizophrenia.

Author

Nemoto, Takahiro, Takeshi, Kiyoaki, Niimura, Hidehito, Tobe, Miki, Ito, Ryosuke, Kojima, Akiko, Saito, Hiroko, Funatogawa, Tomoyuki, Yamaguchi, Taiju, Katagiri, Naoyuki, Tsujino, Naohisa, and Mizuno, Masafumi

Subjects
COGNITIVE rehabilitation, TREATMENT programs, SCHIZOPHRENIA, SOCIAL skills, HOSPITAL admission & discharge, NEUROPSYCHOLOGICAL rehabilitation
Abstract

Aim: Although numerous studies have demonstrated promising results for the cognitive rehabilitation in subjects with schizophrenia, the efficacy of cognitive rehabilitation for everyday and social functioning is not yet sufficient. Although consideration of the contents and methods are vital, the timing for implementing cognitive rehabilitation also seems to be crucial. The aim of this study was to examine the feasibility and acceptability of cognitive rehabilitation during the acute phase of schizophrenia. Methods: Patients were recruited from consecutive acute admissions to the inpatient unit during a 15‐month period and were evaluated to determine whether they could be enrolled in an 8‐week cognitive rehabilitation program within 14 days of their hospital admission. Cognitive rehabilitation programs with a workbook style were adopted, taking the patients' conditions and burdens into consideration. Results: Eighty‐three patients were newly admitted during the entry period, and 49 patients (59.0%) were eligible for inclusion. Of them, 22 patients (44.9%) agreed to participate and started the program. Sixteen patients completed the program and underwent a second assessment. Thus, 32.7% (16/49) of all the eligible patients actually completed the study. The participants were quite satisfied with the program. Conclusions: This preliminary study yielded encouraging data demonstrating the feasibility and acceptability of cognitive remediation for patients with schizophrenia during the acute phase. The provision of cognitive rehabilitation during the acute phase of the first episode can reasonably be expected to lead to better functional outcomes. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Open-channel blocking action of volatile anaesthetics desflurane and sevoflurane on human voltage-gated Kv 1.5 channel.

Author

Fukushima, Yutaka, Kojima, Akiko, Mi, Xinya, Ding, Wei‐Guang, Kitagawa, Hirotoshi, Matsuura, Hiroshi, and Ding, Wei-Guang

Subjects
*SEVOFLURANE, *CONOTOXINS, *ISOFLURANE, *ANESTHETICS, *SITE-specific mutagenesis, *AMINO acids, *COMPUTER simulation
Abstract

Background and Purpose: Volatile anaesthetics have been shown to differentially modulate mammalian Shaker-related voltage-gated potassium (Kv 1.x) channels. This study was designed to investigate molecular and cellular mechanisms underlying the modulatory effects of desflurane or sevoflurane on human Kv 1.5 (hKv 1.5) channels.Experimental Approach: Thirteen single-point mutations were constructed within pore domain of hKv 1.5 channel using site-directed mutagenesis. The effects of desflurane or sevoflurane on heterologously expressed wild-type and mutant hKv 1.5 channels were examined by whole-cell patch-clamp technique. A computer simulation was conducted to predict the docking pose of desflurane or sevoflurane within hKv 1.5 channel.Key Results: Both desflurane and sevoflurane increased hKv 1.5 current at mild depolarizations but decreased it at strong depolarizations, indicating that these anaesthetics produce both stimulatory and inhibitory actions on hKv 1.5 channels. The inhibitory effect of desflurane or sevoflurane on hKv 1.5 channels arose primarily from its open-channel blocking action. The inhibitory action of desflurane or sevoflurane on hKv 1.5 channels was significantly attenuated in T480A, V505A, and I508A mutant channels, compared with wild-type channel. Computational docking simulation predicted that desflurane or sevoflurane resides within the inner cavity of channel pore and has contact with Thr479, Thr480, Val505, and Ile508.Conclusion and Implications: Desflurane and sevoflurane exert an open-channel blocking action on hKv 1.5 channels by functionally interacting with specific amino acids located within the channel pore. This study thus identifies a novel molecular basis mediating inhibitory modulation of hKv 1.5 channels by desflurane and sevoflurane. [ABSTRACT FROM AUTHOR]

Published
2020
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43. 青年期王国維の文学的営為と清末雑誌『教育世界』 : 「人間」とその背景をめぐって[学位論文内容の要旨/学位論文審査の要旨/日本語要旨/外国語要旨]

Author

KOJIMA, Akiko

Subjects
王国維, 『教育世界』, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, 文学, 清末
Abstract

application/pdf, 学位論文, お茶の水女子大学人間文化創成科学研究科博士(人文科学)学位論文・平成28年9月30日授与(甲第207号)

Published
2016

47. Putative binding sites for arachidonic acid on the human cardiac Kv1.5 channel

Author

Bai, Jia‐Yu, Ding, Wei‐Guang, Kojima, Akiko, Seto, Tomoyoshi, and Matsuura, Hiroshi

Subjects
Molecular Docking Simulation, Kv1.5 Potassium Channel, Arachidonic Acid, Binding Sites, Cricetulus, Mutation, Animals, Humans, CHO Cells, Research Papers
Abstract

In human heart, the Kv 1.5 channel contributes to repolarization of atrial action potentials. This study examined the electrophysiological and molecular mechanisms underlying arachidonic acid (AA)-induced inhibition of the human Kv 1.5 (hKv 1.5) channel.Site-directed mutagenesis was conducted to mutate amino acids that reside within the pore domain of the hKv 1.5 channel. Whole-cell patch-clamp method was used to record membrane currents through wild type and mutant hKv 1.5 channels heterologously expressed in CHO cells. Computer docking simulation was conducted to predict the putative binding site(s) of AA in an open-state model of the Kv 1.5 channel.The hKv 1.5 current was minimally affected at the onset of depolarization but was progressively reduced during depolarization by the presence of AA, suggesting that AA acts as an open-channel blocker. AA itself affected the channel at extracellular sites independently of its metabolites and signalling pathways. The blocking effect of AA was attenuated at pH 8.0 but not at pH 6.4. The blocking action of AA developed rather rapidly by co-expression of Kv β1.3. The AA-induced block was significantly attenuated in H463C, T480A, R487V, I502A, I508A, V512A and V516A, but not in T462C, A501V and L510A mutants of the hKv 1.5 channel. Docking simulation predicted that H463, T480, R487, I508, V512 and V516 are potentially accessible for interaction with AA.AA itself interacts with multiple amino acids located in the pore domain of the hKv 1.5 channel. These findings may provide useful information for future development of selective blockers of hKv 1.5 channels.

Published
2015

48. Ionic mechanisms underlying the negative chronotropic action of propofol on sinoatrial node automaticity in guinea pig heart

Author

Kojima, Akiko, Ito, Yuki, Kitagawa, Hirotoshi, and Matsuura, Hiroshi

Subjects
Heart Rate, Guinea Pigs, Animals, Heart, Research Papers, Propofol, Sinoatrial Node
Abstract

Propofol is a widely used intravenous anaesthetic agent, but has undesirable cardiac side effects, including bradyarrhythmia and its severe form asystole. This study examined the ionic and cellular mechanisms underlying propofol-induced bradycardia.Sinoatrial node cells, isolated from guinea pig hearts, were current- and voltage-clamped to record action potentials and major ionic currents involved in their spontaneous activity, such as the hyperpolarization-activated cation current (If ), T-type and L-type Ca(2+) currents (ICa,T and ICa,L , respectively) and the rapidly and slowly activating delayed rectifier K(+) currents (IKr and IK s , respectively). ECGs were recorded from Langendorff-perfused, isolated guinea pig hearts.Propofol (≥5 μM) reversibly decreased the firing rate of spontaneous action potentials and their diastolic depolarization rate. Propofol impaired If activation by shifting the voltage-dependent activation to more hyperpolarized potentials (≥1 μM), slowing the activation kinetics (≥3 μM) and decreasing the maximal conductance (≥10 μM). Propofol decreased ICa,T (≥3 μM) and ICa,L (≥1 μM). Propofol suppressed IKs (≥3 μM), but had a minimal effect on IKr . Furthermore, propofol (≥5 μM) decreased heart rates in Langendorff-perfused hearts. The sinoatrial node cell model reasonably well reproduced the negative chronotropic action of propofol.Micromolar concentrations of propofol suppressed the slow diastolic depolarization and firing rate of sinoatrial node action potentials by impairing If activation and reducing ICa,T , ICa,L and IKs . These observations suggest that the direct inhibitory effect of propofol on sinoatrial node automaticity, mediated via multiple channel inhibition, underlies the propofol-induced bradycardia observed in clinical settings.

Published
2014

50. AICAR reduces the collagen-stimulated secretion of PDGF-AB and release of soluble CD40 ligand from human platelets: Suppression of HSP27 phosphorylation via p44/p42 MAP kinase

Author

Tsujimoto, Masanori, primary, Tokuda, Haruhiko, additional, Kuroyanagi, Gen, additional, Yamamoto, Naohiro, additional, Kainuma, Shingo, additional, Matsushima-Nishiwaki, Rie, additional, Onuma, Takashi, additional, Iida, Yuko, additional, Kojima, Akiko, additional, Sawada, Shigenobu, additional, Doi, Tomoaki, additional, Enomoto, Yukiko, additional, Tanabe, Kumiko, additional, Akamatsu, Shigeru, additional, Iida, Hiroki, additional, Ogura, Shinji, additional, Otsuka, Takanobu, additional, Kozawa, Osamu, additional, and Iwama, Toru, additional

Published
2016
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