Shinichi Fukuyama scite author profile

Shinichi Fukuyama

5Publications

58Citation Statements Received

0Citation Statements Given

How they've been cited

130

How they cite others

Affiliations

Sasebo City General Hospital, Mochida Pharmaceutical (Japan), Tokyo Institute of Technology

Publications

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A New Nitric Oxide (No) Releaser: Spontaneous No Release from Fk409

Fukuyama

Kita

Hirasawa

et al. 1995

Free Radical Research

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The remarkable vasorelaxant and anti-platelet effects of FK409 have been reported to be due to nitric oxide (NO) release. The purpose of the present study is to investigate the spontaneous NO-releasing pathway of FK409 in aqueous solutions. 1H-NMR spectra of FK409 suggested that the compound underwent a time-dependent elimination of the hydrogen atom at alpha-position of the nitro moiety (at the 5-position) in weakly alkaline solutions. In addition, the degradation of FK409 monitored by HPLC showed a pH-dependency accelerating with an increase of pH. These results revealed that the first step in the degradation of FK409 might be the hydroxyl ion-dependent subtraction of the hydrogen atom at the 5-position. On the other hand, NO release from FK409 also exhibited a pH-dependency, and the velocity of NO liberation was markedly enhanced above pH 6. Furthermore, a linear relationship between the rate of FK409 degradation and that of NO formation was observed, indicating that the rate-limiting step for NO formation is the same as that for degradation. Thus, the rate-limiting process of NO formation from FK409 is due to the deprotonation reaction of the hydrogen atom at the 5-position by hydroxyl ions. The deprotonation process appears to be an essential step for both FK409 degradation and NO release. On the basis of the results, a possible kinetic scheme for NO release from FK409 is proposed.

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New reagents for controlled release of nitric oxide. Structure-stability relationships

Kato

Nishino

Ohno

et al. 1996

Bioorganic & Medicinal Chemistry Letters

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Antianginal effects of FR144420, a novel slow nitric oxide-releasing agent

Hirasawa

Sugimoto

Fukuyama

et al. 1996

European Journal of Pharmacology

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New methods for the preparation of thiovinyl ethers and unsym-ketones

Mukaiyama

Fukuyama

Kumamoto

1968

Tetrahedron Letters

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NOR-1: a nitric oxide releasing agent for calibrating low levels of nitric oxide by the chemiluminescence method

Ueki

Nakamura

Matsumoto

et al. 2002

Blood Coagulation & Fibrinolysis

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Nitric oxide (NO) is formed in small amounts in vivo and is rapidly oxidized by interacting with oxygen, making measurement of its level difficult. The chemiluminescence assay is the most widely used method for detecting NO and is extremely sensitive to very small amounts of NO. However, it is difficult to prepare small amounts of NO to be used as a standard for NO analysis. NOR-1, a derivative of NOR-3, is a newly discovered NO donor with rapid NO-releasing activity. We assessed the dynamics of NO release and decomposition using NOR-1. Our results demonstrate that NOR-1 is stable in dimethylsulfoxide (DMSO) and is able to dilute at lower concentration (to picomolar levels) by DMSO without decomposition. NOR-1 released persistently 1.4 more excess of NO with 15 min of incubation. There was a linear relationship between the concentration of NOR-1 and that of NO released from NOR-1 (r=0.997) These findings suggest that NOR-1 is a useful reagent for the calibration of lower NO detection.

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