Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities

Takahiro Moriyama; Makoto Yoritate; Naoki Kato; Azusa Saika; Wakana Kusuhara; Shunsuke Ono; Takahiro Nagatake; Hiroyuki Koshino; Noriaki Kiya; Natsuho Moritsuka; Riko Tanabe; Yu Hidaka; Kazuteru Usui; Suzuka Chiba; Noyuri Kudo; Rintaro Nakahashi; Kazunobu Igawa; Hiroaki Matoba; Katsuhiko Tomooka; Eri Ishikawa; Shunji Takahashi; Jun Kunisawa; Sho Yamasaki; Go Hirai

doi:10.1021/jacs.3c12581

Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities

Takahiro Moriyama, Makoto Yoritate, Naoki Kato, Azusa Saika, Wakana Kusuhara, Shunsuke Ono, Takahiro Nagatake, Hiroyuki Koshino, Noriaki Kiya, Natsuho Moritsuka, Riko Tanabe, Yu Hidaka, Kazuteru Usui, Suzuka Chiba, Noyuri Kudo, Rintaro Nakahashi, Kazunobu Igawa, Hiroaki Matoba, Katsuhiko Tomooka, Eri IshikawaShunji Takahashi, Jun Kunisawa, Sho Yamasaki, Go Hirai

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

14 Citations (Scopus)

Abstract

The acetal (O-glycoside) bonds of glycans and glycoconjugates are chemically and biologically vulnerable, and therefore C-glycosides are of interest as more stable analogs. We hypothesized that, if the O-glycoside linkage plays a vital role in glycan function, the biological activities of C-glycoside analogs would vary depending on their substituents. Based on this idea, we adopted a “linkage-editing strategy” for the creation of glycan analogs (pseudo-glycans). We designed three types of pseudo-glycans with CH₂ and CHF linkages, which resemble the O-glycoside linkage in terms of bond lengths, angles, and bulkiness, and synthesized them efficiently by means of fluorovinyl C-glycosylation and selective hydrogenation reactions. Application of this strategy to isomaltose (IM), an inducer of amylase expression, and α-GalCer, which activates iNKT cells, resulted in the discovery of CH₂-IM, which shows increased amylase production ability, and CHF-α-GalCer, which shows activity opposite that of native α-GalCer, serving as an antagonist of iNKT cells.

Original language	English
Pages (from-to)	2237-2247
Number of pages	11
Journal	Journal of the American Chemical Society
Volume	146
Issue number	3
DOIs	https://doi.org/10.1021/jacs.3c12581
Publication status	Published - Jan 24 2024

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

Access to Document

10.1021/jacs.3c12581

Cite this

Moriyama, T., Yoritate, M., Kato, N., Saika, A., Kusuhara, W., Ono, S., Nagatake, T., Koshino, H., Kiya, N., Moritsuka, N., Tanabe, R., Hidaka, Y., Usui, K., Chiba, S., Kudo, N., Nakahashi, R., Igawa, K., Matoba, H., Tomooka, K., ... Hirai, G. (2024). Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities. Journal of the American Chemical Society, 146(3), 2237-2247. https://doi.org/10.1021/jacs.3c12581

Moriyama, T, Yoritate, M, Kato, N, Saika, A, Kusuhara, W, Ono, S, Nagatake, T, Koshino, H, Kiya, N, Moritsuka, N, Tanabe, R, Hidaka, Y, Usui, K, Chiba, S, Kudo, N, Nakahashi, R, Igawa, K, Matoba, H , Tomooka, K, Ishikawa, E, Takahashi, S, Kunisawa, J, Yamasaki, S & Hirai, G 2024, 'Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities', Journal of the American Chemical Society, vol. 146, no. 3, pp. 2237-2247. https://doi.org/10.1021/jacs.3c12581

@article{7cab37e345c54bfb8903e7cf63895ef0,

title = "Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities",

abstract = "The acetal (O-glycoside) bonds of glycans and glycoconjugates are chemically and biologically vulnerable, and therefore C-glycosides are of interest as more stable analogs. We hypothesized that, if the O-glycoside linkage plays a vital role in glycan function, the biological activities of C-glycoside analogs would vary depending on their substituents. Based on this idea, we adopted a “linkage-editing strategy” for the creation of glycan analogs (pseudo-glycans). We designed three types of pseudo-glycans with CH2 and CHF linkages, which resemble the O-glycoside linkage in terms of bond lengths, angles, and bulkiness, and synthesized them efficiently by means of fluorovinyl C-glycosylation and selective hydrogenation reactions. Application of this strategy to isomaltose (IM), an inducer of amylase expression, and α-GalCer, which activates iNKT cells, resulted in the discovery of CH2-IM, which shows increased amylase production ability, and CHF-α-GalCer, which shows activity opposite that of native α-GalCer, serving as an antagonist of iNKT cells.",

author = "Takahiro Moriyama and Makoto Yoritate and Naoki Kato and Azusa Saika and Wakana Kusuhara and Shunsuke Ono and Takahiro Nagatake and Hiroyuki Koshino and Noriaki Kiya and Natsuho Moritsuka and Riko Tanabe and Yu Hidaka and Kazuteru Usui and Suzuka Chiba and Noyuri Kudo and Rintaro Nakahashi and Kazunobu Igawa and Hiroaki Matoba and Katsuhiko Tomooka and Eri Ishikawa and Shunji Takahashi and Jun Kunisawa and Sho Yamasaki and Go Hirai",

note = "Publisher Copyright: {\textcopyright} 2024 American Chemical Society",

year = "2024",

month = jan,

day = "24",

doi = "10.1021/jacs.3c12581",

language = "English",

volume = "146",

pages = "2237--2247",

journal = "Journal of the American Chemical Society",

issn = "0002-7863",

publisher = "American Chemical Society",

number = "3",

}

TY - JOUR

T1 - Linkage-Editing Pseudo-Glycans

T2 - A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities

AU - Moriyama, Takahiro

AU - Yoritate, Makoto

AU - Kato, Naoki

AU - Saika, Azusa

AU - Kusuhara, Wakana

AU - Ono, Shunsuke

AU - Nagatake, Takahiro

AU - Koshino, Hiroyuki

AU - Kiya, Noriaki

AU - Moritsuka, Natsuho

AU - Tanabe, Riko

AU - Hidaka, Yu

AU - Usui, Kazuteru

AU - Chiba, Suzuka

AU - Kudo, Noyuri

AU - Nakahashi, Rintaro

AU - Igawa, Kazunobu

AU - Matoba, Hiroaki

AU - Tomooka, Katsuhiko

AU - Ishikawa, Eri

AU - Takahashi, Shunji

AU - Kunisawa, Jun

AU - Yamasaki, Sho

AU - Hirai, Go

PY - 2024/1/24

Y1 - 2024/1/24

N2 - The acetal (O-glycoside) bonds of glycans and glycoconjugates are chemically and biologically vulnerable, and therefore C-glycosides are of interest as more stable analogs. We hypothesized that, if the O-glycoside linkage plays a vital role in glycan function, the biological activities of C-glycoside analogs would vary depending on their substituents. Based on this idea, we adopted a “linkage-editing strategy” for the creation of glycan analogs (pseudo-glycans). We designed three types of pseudo-glycans with CH2 and CHF linkages, which resemble the O-glycoside linkage in terms of bond lengths, angles, and bulkiness, and synthesized them efficiently by means of fluorovinyl C-glycosylation and selective hydrogenation reactions. Application of this strategy to isomaltose (IM), an inducer of amylase expression, and α-GalCer, which activates iNKT cells, resulted in the discovery of CH2-IM, which shows increased amylase production ability, and CHF-α-GalCer, which shows activity opposite that of native α-GalCer, serving as an antagonist of iNKT cells.

AB - The acetal (O-glycoside) bonds of glycans and glycoconjugates are chemically and biologically vulnerable, and therefore C-glycosides are of interest as more stable analogs. We hypothesized that, if the O-glycoside linkage plays a vital role in glycan function, the biological activities of C-glycoside analogs would vary depending on their substituents. Based on this idea, we adopted a “linkage-editing strategy” for the creation of glycan analogs (pseudo-glycans). We designed three types of pseudo-glycans with CH2 and CHF linkages, which resemble the O-glycoside linkage in terms of bond lengths, angles, and bulkiness, and synthesized them efficiently by means of fluorovinyl C-glycosylation and selective hydrogenation reactions. Application of this strategy to isomaltose (IM), an inducer of amylase expression, and α-GalCer, which activates iNKT cells, resulted in the discovery of CH2-IM, which shows increased amylase production ability, and CHF-α-GalCer, which shows activity opposite that of native α-GalCer, serving as an antagonist of iNKT cells.

UR - http://www.scopus.com/inward/record.url?scp=85182581877&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85182581877&partnerID=8YFLogxK

U2 - 10.1021/jacs.3c12581

DO - 10.1021/jacs.3c12581

M3 - Article

C2 - 38196121

AN - SCOPUS:85182581877

SN - 0002-7863

VL - 146

SP - 2237

EP - 2247

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 3

ER -

Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl-C-Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities

Abstract

All Science Journal Classification (ASJC) codes

Access to Document

Other files and links

Fingerprint

Cite this