Anti-herpes simplex virus target of an acidic polysaccharide, nostoflan, from the edible blue-green alga Nostoc flagelliforme

Kenji Kanekiyo; Kyoko Hayashi; Hiroyuki Takenaka; Jung Bum Lee; Toshimitsu Hayashi

doi:10.1248/bpb.30.1573

Anti-herpes simplex virus target of an acidic polysaccharide, nostoflan, from the edible blue-green alga Nostoc flagelliforme

Kenji Kanekiyo, Kyoko Hayashi, Hiroyuki Takenaka, Jung Bum Lee, Toshimitsu Hayashi^*

^*Corresponding author for this work

Plant Resource Sciences

Research output: Contribution to journal › Article › peer-review

121 Scopus citations

Abstract

The acidic polysaccharide nostoflan was previously isolated as an antiviral component from the terrestrial alga Nostoc flagelliforme. In the present study, we examined the target for its anti-herpes simplex virus type 1 action. In time-of-addition experiments, the most sensitive stage of viral replication to nostoflan was found to be early events, including the virus binding and/or penetration processes. In order to determine what extent nostoflan may be involved in these processes, virus binding and penetration assays were separately performed. The results indicated that the inhibition of virus binding to but not penetration into host cells was responsible for the antiherpetic effect induced by nostoflan. Our study suggests that nostoflan may be a potential antiherpes agent.

Original language	English
Pages (from-to)	1573-1575
Number of pages	3
Journal	Biological and Pharmaceutical Bulletin
Volume	30
Issue number	8
DOIs	https://doi.org/10.1248/bpb.30.1573
State	Published - 2007/08

Keywords

Antiviral target
Herpes simplex virus
Nostoc flagelliforme
Viral binding process

ASJC Scopus subject areas

Pharmacology
Pharmaceutical Science

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10.1248/bpb.30.1573

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title = "Anti-herpes simplex virus target of an acidic polysaccharide, nostoflan, from the edible blue-green alga Nostoc flagelliforme",

abstract = "The acidic polysaccharide nostoflan was previously isolated as an antiviral component from the terrestrial alga Nostoc flagelliforme. In the present study, we examined the target for its anti-herpes simplex virus type 1 action. In time-of-addition experiments, the most sensitive stage of viral replication to nostoflan was found to be early events, including the virus binding and/or penetration processes. In order to determine what extent nostoflan may be involved in these processes, virus binding and penetration assays were separately performed. The results indicated that the inhibition of virus binding to but not penetration into host cells was responsible for the antiherpetic effect induced by nostoflan. Our study suggests that nostoflan may be a potential antiherpes agent.",

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author = "Kenji Kanekiyo and Kyoko Hayashi and Hiroyuki Takenaka and Lee, {Jung Bum} and Toshimitsu Hayashi",

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AU - Kanekiyo, Kenji

AU - Hayashi, Kyoko

AU - Takenaka, Hiroyuki

AU - Lee, Jung Bum

AU - Hayashi, Toshimitsu

PY - 2007/8

Y1 - 2007/8

N2 - The acidic polysaccharide nostoflan was previously isolated as an antiviral component from the terrestrial alga Nostoc flagelliforme. In the present study, we examined the target for its anti-herpes simplex virus type 1 action. In time-of-addition experiments, the most sensitive stage of viral replication to nostoflan was found to be early events, including the virus binding and/or penetration processes. In order to determine what extent nostoflan may be involved in these processes, virus binding and penetration assays were separately performed. The results indicated that the inhibition of virus binding to but not penetration into host cells was responsible for the antiherpetic effect induced by nostoflan. Our study suggests that nostoflan may be a potential antiherpes agent.

AB - The acidic polysaccharide nostoflan was previously isolated as an antiviral component from the terrestrial alga Nostoc flagelliforme. In the present study, we examined the target for its anti-herpes simplex virus type 1 action. In time-of-addition experiments, the most sensitive stage of viral replication to nostoflan was found to be early events, including the virus binding and/or penetration processes. In order to determine what extent nostoflan may be involved in these processes, virus binding and penetration assays were separately performed. The results indicated that the inhibition of virus binding to but not penetration into host cells was responsible for the antiherpetic effect induced by nostoflan. Our study suggests that nostoflan may be a potential antiherpes agent.

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KW - Herpes simplex virus

KW - Nostoc flagelliforme

KW - Viral binding process

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Anti-herpes simplex virus target of an acidic polysaccharide, nostoflan, from the edible blue-green alga Nostoc flagelliforme

Abstract

Keywords

ASJC Scopus subject areas

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