Yutaka Kawazoe scite author profile

A class of synthetic lignins (dehydrogenation polymers of p-coumaric acid, ferulic acid, and caffeic acid) inhibited cytopathogenicity of HIV-1 and HIV-2 infection. The ratio of cytotoxic to anti-HIV (human immunodeficiency virus) doses depended strongly on conditions during polymer preparation. The activity increased when polymers were treated with reducing agent NaBH4, whereas it decreased when treated with oxidizing agent ceric ammonium nitrate. The polymers inhibited expression of HIV-specific antigen in the infected cells and also inhibited HIV-binding to the cells, but not completely, even at doses that almost completely inhibited the HIV-induced cytopathogenic effect. These results suggest that lignin structure, regardless of whether synthetic or natural, may inhibit HIV replication by an unidentified process, and thus prove to be a new class of anti-HIV agents possibly effective in the treatment of AIDS (acquired immunodeficiency syndrome).

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Cysteine-catalyzed hydrogen isotope exchange at the 5 position of uridylic acid

Wataya¹,

Hayatsu²,

Kawazoe³

1972

J. Am. Chem. Soc.

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ChemInform Abstract: STUDIES ON CHEMICAL ALTERATIONS OF NUCLEIC ACIDS AND THEIR COMPONENTS PART 7, C‐ALKYLATION OF PURINE BASES THROUGH FREE RADICAL PROCESS CATALYZED BY FERROUS ION

Maeda¹,

Nushi²,

Kawazoe³

1974

Chemischer Informationsdienst

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Comparison of chemically induced DNA breakage in cellular and subcellular systems using the comet assay

Kasamatsu

Kohda

Kawazoe

1996

Mutation Research/Genetic Toxicology

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Yutaka Kawazoe

Studies on chemical alterations of nucleic acids and their components—VII

Lignified Materials as Medicinal Resources. V. Anti-HIV(Human Immunodeficiency Virus) Activity of Some Synthetic Lignins.

Cysteine-catalyzed hydrogen isotope exchange at the 5 position of uridylic acid

ChemInform Abstract: STUDIES ON CHEMICAL ALTERATIONS OF NUCLEIC ACIDS AND THEIR COMPONENTS PART 7, C‐ALKYLATION OF PURINE BASES THROUGH FREE RADICAL PROCESS CATALYZED BY FERROUS ION

Comparison of chemically induced DNA breakage in cellular and subcellular systems using the comet assay

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