Satoshi Toki scite author profile

Satoshi Toki

5Publications

48Citation Statements Received

0Citation Statements Given

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Fukuoka University, Kyushu University

Publications

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In vivoandin vitroformation of morphinone from morphine in rat

et al. 1997

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1. Morphinone, a toxic metabolite, and its glutathione adduct (MO-GSH) were identified in the bile of rat after subcutaneous injection of morphine (25 mg/kg) by hplc procedures. The amounts of morphinone and MO-GSH excreted in the 12-h bile were 0.8 +/- 0.3 and 8.4 +/- 4.3% respectively. 2. The 9000 g supernatants of rat, guinea pig, rabbit, mouse, hamster and bovine livers produced morphinone from morphine in the presence of either NAD+ or NADP+, NAD+ was a more efficient cofactor than NADP+ except in the guinea pig which equally utilized both cofactors. With NAD+ as cofactor, the amounts of morphinone formed in rat and guinea pig were 5.70 and 5.82 mumol/g liver/30 min respectively and were three-to-four times those in other species. 3. The enzyme activity responsible for formation of morphinone from morphine in the rat was almost exclusively distributed in the microsomal fraction, whereas guinea pig, hamster and bovine expressed the enzyme activity mainly in the cytosolic fraction. Rabbit and mouse gave higher activity in the cytosolic and microsomal fractions respectively, but other fractions of both species contained considerable activity. 4. The enzyme activities in male and female rat microsomes were characterized with respect to developmental pattern, kinetic parameters, pH dependency and susceptibility to inhibitors. 5. In conclusion the metabolism of morphine to morphinone in rat was confirmed by in vivo and in vitro experiments. It is also suggested that this pathway is a common route in morphine metabolism in several mammalian species.

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Detection of Morphinone as a New Metabolite of Morphine in Guinea Pig Urine

Ishida

Yamano

Toki

1981

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Purification and Characterization of Two Major Forms of Naloxone Reductase from Rabbit Liver Cytosol, New Members of Aldo-Keto Reductase Superfamily.

Yamano

Ichinose

Todaka

et al. 1999

Biological & Pharmaceutical Bulletin

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Effect of morphinone on opiate receptor binding and morphine-elicited analgesia

et al. 1982

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New aspect of guinea pig liver 17β-hydroxysteroid (testosterone) dehydrogenase

Kageura¹,

Toki²

1971

Life Sciences

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Satoshi Toki

In vivoandin vitroformation of morphinone from morphine in rat

Detection of Morphinone as a New Metabolite of Morphine in Guinea Pig Urine

Purification and Characterization of Two Major Forms of Naloxone Reductase from Rabbit Liver Cytosol, New Members of Aldo-Keto Reductase Superfamily.

Effect of morphinone on opiate receptor binding and morphine-elicited analgesia

New aspect of guinea pig liver 17β-hydroxysteroid (testosterone) dehydrogenase

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