Multivalent Effect in Influenza Hemagglutinin-Binding Activity of Sugar-Mimic Peptide

Teruhiko Matsubara; Ai Onishi; Tomomi Saito; Daisuke Yamaguchi; Toshinori Sato

doi:10.1295/koron.2015-0052

Multivalent Effect in Influenza Hemagglutinin-Binding Activity of Sugar-Mimic Peptide

Teruhiko Matsubara, Ai Onishi, Tomomi Saito, Daisuke Yamaguchi, Toshinori Sato

Department of Biosciences and Informatics

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

4 Citations (Scopus)

Abstract

Hemagglutinin (HA) of the influenza virus binds to sialyloligosaccaride receptors on the cell surface in the first step of infection; therefore, inhibitors of the HA-receptor interaction have potential as anti-influenza drugs. We previously identified the HA-binding peptide s2, ARLPRTMVHPKPAQP, from random peptide libraries using phage-display technology. The N-stearoyl s2 peptide showed inhibitory activity against influenza virus infection. To obtain molecules with high affinity for HAs, truncated s2 peptides and dendrimers were designed in the present study. The affinity of dendrimers functionalized with the truncated peptide was higher than that of the full-length s2 peptide, especially a tetrameric dendrimer with ARLPR was more than 70-times more effective than the s2 peptide.

Original language	English
Pages (from-to)	62-68
Number of pages	7
Journal	Kobunshi Ronbunshu
Volume	73
Issue number	1
DOIs	https://doi.org/10.1295/koron.2015-0052
Publication status	Published - 2016

Keywords

Anti-viral drug
Hemagglutinin
Influenza
Peptide
Sialyloligosaccharide

ASJC Scopus subject areas

Polymers and Plastics
Environmental Science(all)
Materials Science (miscellaneous)
Chemical Engineering (miscellaneous)

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title = "Multivalent Effect in Influenza Hemagglutinin-Binding Activity of Sugar-Mimic Peptide",

abstract = "Hemagglutinin (HA) of the influenza virus binds to sialyloligosaccaride receptors on the cell surface in the first step of infection; therefore, inhibitors of the HA-receptor interaction have potential as anti-influenza drugs. We previously identified the HA-binding peptide s2, ARLPRTMVHPKPAQP, from random peptide libraries using phage-display technology. The N-stearoyl s2 peptide showed inhibitory activity against influenza virus infection. To obtain molecules with high affinity for HAs, truncated s2 peptides and dendrimers were designed in the present study. The affinity of dendrimers functionalized with the truncated peptide was higher than that of the full-length s2 peptide, especially a tetrameric dendrimer with ARLPR was more than 70-times more effective than the s2 peptide.",

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T1 - Multivalent Effect in Influenza Hemagglutinin-Binding Activity of Sugar-Mimic Peptide

AU - Matsubara, Teruhiko

AU - Onishi, Ai

AU - Saito, Tomomi

AU - Yamaguchi, Daisuke

AU - Sato, Toshinori

PY - 2016

Y1 - 2016

N2 - Hemagglutinin (HA) of the influenza virus binds to sialyloligosaccaride receptors on the cell surface in the first step of infection; therefore, inhibitors of the HA-receptor interaction have potential as anti-influenza drugs. We previously identified the HA-binding peptide s2, ARLPRTMVHPKPAQP, from random peptide libraries using phage-display technology. The N-stearoyl s2 peptide showed inhibitory activity against influenza virus infection. To obtain molecules with high affinity for HAs, truncated s2 peptides and dendrimers were designed in the present study. The affinity of dendrimers functionalized with the truncated peptide was higher than that of the full-length s2 peptide, especially a tetrameric dendrimer with ARLPR was more than 70-times more effective than the s2 peptide.

AB - Hemagglutinin (HA) of the influenza virus binds to sialyloligosaccaride receptors on the cell surface in the first step of infection; therefore, inhibitors of the HA-receptor interaction have potential as anti-influenza drugs. We previously identified the HA-binding peptide s2, ARLPRTMVHPKPAQP, from random peptide libraries using phage-display technology. The N-stearoyl s2 peptide showed inhibitory activity against influenza virus infection. To obtain molecules with high affinity for HAs, truncated s2 peptides and dendrimers were designed in the present study. The affinity of dendrimers functionalized with the truncated peptide was higher than that of the full-length s2 peptide, especially a tetrameric dendrimer with ARLPR was more than 70-times more effective than the s2 peptide.

KW - Anti-viral drug

KW - Hemagglutinin

KW - Influenza

KW - Peptide

KW - Sialyloligosaccharide

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Multivalent Effect in Influenza Hemagglutinin-Binding Activity of Sugar-Mimic Peptide

Abstract

Keywords

ASJC Scopus subject areas

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