M Harada scite author profile

M Harada

5Publications

69Citation Statements Received

54Citation Statements Given

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Otsuka (Japan), Otsuka Pharmaceutical (Spain), Kagawa University

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Effect of Whole Blood Clotting Time in Rats With Ionized Hypocalcemia Induced by Rapid Intravenous Citrate Infusion

et al. 2006

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-Although the toxic effects of citrate including hemodynamic and cardiovascular changes result from a decrease in ionized calcium levels in serum due to chelating action, these effects of citrate on blood coagulation have not yet been fully clarified. The present study examines whether serum citrate and ionized calcium levels affect whole blood clotting time in rats using the test tube method in which citrate is administered by rapid intravenous infusion. Citrate was infused via the tail vein into 10 rats at 3, 4 or 5 mmol/kg/hr for 1 hr, and then whole blood clotting time, serum citrate and ionized calcium levels were determined. Whole blood clotting time did not significantly change at citrate infusion rates of 3 and 4 mmol/kg/hr. However, at 5 mmol/kg/hr, whole blood clotting time was significantly prolonged by a factor of 2.1 relative to the untreated group, when the serum citrate level was 10.03 ± 1.39 mmol/l (59.0-fold higher than that in the untreated group) and the serum-ionized calcium level was 0.29 ± 0.02 mmol/ l (0.2-fold lower than that in the untreated group). These results suggest that whole blood clotting time is significantly prolonged in rats with severe ionized hypocalcemia.

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Metabolism of diethyl 4-[(4-bromo-2-cyanophenyl)-carbamoyl]benzylphosphonate in the rat

Morioka¹,

Ohmizo²,

Harada³

et al. 1996

Xenobiotica

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1. The metabolism of diethyl 4-[(4-bromo-2-cyanophenyl)carbamoyl]benzylphosphonate (NO-1886), an antilipidaemic agent, was evaluated in the rat. 2. 14C-NO-1886 was dosed orally to rats (3 mg/kg) and within 24 h after dosing, 27.9 +/- 2.1 and 63.5 +/- 4.2% of the administered radioactivity was recovered from urine and faeces respectively. 3. The metabolite M-2 was isolated from the urine and faeces, and two other metabolites, M-3 and M-5, were isolated from the urine. Two of them were identified as ethyl 4-[(4-bromo-2-cyanophenyl)carbamoyl]benzylphosphonate (M-2) and 4-[(diethoxy-phosphoryl)methyl)]benzoic acid (M-3), and the other one was considered to be 2-amino-5-bromo-3-cyanobenzene sulphate (M-5) by ms and nmr spectrometry. 4. The major metabolic pathway of NO-1886 was found to be mono-hydrolysis of the diethyl phosphonate. It was also considered that M-5 may have been formed in vivo via 2-amino-5-bromo-benzonitrile (M-1) and 2-amino-5-bromo-3-hydroxybenzonitrile (M-4).

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Acanthamoeba-specific human T-cell clones isolated from healthy individuals

et al. 1994

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T-cell responses to pathogenic free-living amoebae, Acanthamoeba sp., were analyzed in healthy Japanese individuals. Of 20 healthy subjects, 10 (50%) showed significant proliferative responses of peripheral blood mononuclear cells to the soluble amoebic antigens in vitro. The antigens used were not mitogenic, and no evidence of amoebic superantigens was available. We established human T-cell clones reactive to Acanthamoeba, all of which were CD3- and CD4-positive, CD8-negative, and TCR-alpha beta-positive. We isolated two strains of Acanthamoeba from two patients, one from a patient with meningoencephalitis (CSF strain) and the other from a patient with keratitis (K strain). Of 13 clones, 11 were reactive to the K-strain as well as to the CSF-strain antigen under human leukocyte antigen (HLA)-DR restriction, whereas the other two were specific for the K-strain antigen. All but one clone tested showed TH1-equivalent functions because these cells produced interferon (IFN)-gamma in response to the amoebic antigen but produced no detectable level of interleukin 4 (IL-4). These results suggest that immunocompetent hosts might have acquired protective immunity mediated by Acanthamoeba-specific T-cells during natural sensitization.

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Pharmacokinetics and metabolism of NO-1886, a lipoprotein lipase-promoting agent, in cynomolgus monkey

et al. 2003

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1. The study was conducted to investigate the pharmacokinetics and metabolism of NO-1886 (diethyl 4-[(4-bromo-2-cyanophenyl) carbamoyl] benzylphosphonate) in cynomolgus monkeys. 2. After single intravenous administration of NO-1886 at a dose of 3 mg kg(-1), the total clearance (CL(tot)), area under the plasma concentration-time curve (AUC(0-)(t)), half-life (t(1/2)), and volume of distribution (V(d)) in cynomolgus monkeys were 531 ml h(-1) kg(-1), 5.63 micro g h ml(-1), 0.96 h and 679 ml kg(-1), respectively. The AUC(0-)(t) for oral administration of NO-1886 (3 mg kg(-1)) was 4.23 micro g h ml(-1) and the bioavailability was 75%. 3. M-2 (ethyl 4-[(4-bromo-2-cyanophenyl) carbamoyl] benzylphosphonate) and M-3 (4-[(diethoxy-phosphoryl) methyl)] benzoic acid) were present as metabolites in plasma and urine. In faeces, M-2 was present but M-3 was not. 4. The major metabolite of NO-1886 in liver S9 or microsomes was M-2 in the presence of NADPH. On the other hand, M-3 was formed in the absence of NADPH in liver S9 or microsomes and its formation was inhibited by bis-( p-nitrophenyl) phosphate (BNPP) in liver S9, suggesting that the formation of M-3 was catalysed by carboxylesterase. 5. The findings suggest that the main metabolic pathway of NO-1886 in cynomolgus monkeys is the O-deethylation of NO-1886 to M-2, as in rats and humans, and that the hydrolysis of the amide bond is a minor metabolic pathway.

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Assessment of Induction of Cytochrome P450 by NO-1886 (Ibrolipim), a Lipoprotein Lipase-Promoting Agent, in Primary Cultures of Human Hepatocytes and in Female Rat Liver

Morioka

Nishimura

Imai

et al. 2006

Drug Metabolism and Pharmacokinetics

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The mRNA levels of human cytochrome P450 (CYP)2Cs and CYP3As in primary cultures of freshly isolated human hepatocytes were assessed after exposure to NO-1886 and rifampicin, a typical inducer of CYP3As. mRNA levels were analyzed by real-time RT-PCR using an ABI PRISM 7700 Sequence Detector system. Exposure to NO-1886 for 24 hr at a concentration of less than 10 microM showed only a tendency to reduce or increase the expression levels of CYP2C8, CYP2C9, CYP2C19, CYP3A4, or CYP3A5 mRNA. A higher concentration (50 microM) of NO-1886 induced an increase in CYP2C8 mRNA and a decrease in CYP2C19 mRNA, and these changes continued after additional culture for 24 hr in fresh medium without NO-1886. The expression level of CYP3A4 mRNA after exposure to NO-1886 for 24 hr at 50 microM was about twice that in controls. Following additional culture for 24 hr in fresh medium without NO-1886, the expression of CYP3A4 mRNA was comparable to that in controls. On the other hand, the expression levels of CYP2C9 and CYP3A5 mRNA showed small and variable changes in each donor even at a high concentration (50 microM) of NO-1886. Furthermore, the pharmacokinetics of NO-1886 during repeated oral administration for 14 days was studied in female rats. The pharmacokinetic parameters of NO-1886 were nearly the same on days 1, 7, and 14 of repeated administration. The hepatic microsomal content of CYP isoforms was not affected by repeated administration for 7 days at a dose of 1 to 30 mg/kg in female rats, although the total CYP content was increased at a dose of 30 mg/kg. The expression levels of CYP1A2, CYP2B2, CYP2C12, and CYP2E1 mRNA in primary cultures of rat hepatocytes were not affected by exposure to NO-1886 at 2, 10, or 50 microM. The expression levels of CYP3A1 mRNA in primary cultures of rat hepatocytes were not affected by exposure to NO-1886 at 2 or 10 microM, but were increased, with large individual variation, by exposure at 50 microM. The mRNA expression levels in rat hepatocytes exposed to concentrations comparable to free plasma levels did not change significantly, which was consistent with the equivalence in the in vivo plasma concentrations observed on days 1 and 14 of repeated administration. These results suggest that repeated administration of NO-1886 at clinical doses does not significantly affect the expression levels of CYP isoforms in human liver, although the mRNA levels of the CYP isoforms involved in the metabolism of NO-1886 were increased by exposure to higher concentrations of NO-1886 in human hepatocytes in vitro.

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M Harada

Effect of Whole Blood Clotting Time in Rats With Ionized Hypocalcemia Induced by Rapid Intravenous Citrate Infusion

Metabolism of diethyl 4-[(4-bromo-2-cyanophenyl)-carbamoyl]benzylphosphonate in the rat

Acanthamoeba-specific human T-cell clones isolated from healthy individuals

Pharmacokinetics and metabolism of NO-1886, a lipoprotein lipase-promoting agent, in cynomolgus monkey

Assessment of Induction of Cytochrome P450 by NO-1886 (Ibrolipim), a Lipoprotein Lipase-Promoting Agent, in Primary Cultures of Human Hepatocytes and in Female Rat Liver

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