Synthesis and glycosidase inhibition of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives

Tian Tian Lu; Yuna Shimadate; Bin Cheng; Uta Kanekiyo; Atsushi Kato; Jun Zhe Wang; Yi Xian Li; Yue Mei Jia; George W.J. Fleet; Chu Yi Yu

doi:10.1016/j.ejmech.2021.113716

Synthesis and glycosidase inhibition of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives

Tian Tian Lu, Yuna Shimadate, Bin Cheng, Uta Kanekiyo, Atsushi Kato^*, Jun Zhe Wang, Yi Xian Li^*, Yue Mei Jia, George W.J. Fleet, Chu Yi Yu^*

^*Corresponding author for this work

Hospital Pharmacy

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

15 Scopus citations

Abstract

5-C-Alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives have been designed and synthesized efficiently from an L-sorbose-derived cyclic nitrone. The DNJ and L-ido-DNJ derivatives with C-5 alkyl chains ranging from methyl to dodecyl were assayed against various glycosidases to study the effect of chain length on enzyme inhibition. Glycosidase inhibition study of DNJ derivatives showed potent and selective inhibitions of α-glucosidase; DNJ derivatives with methyl, pentyl to octyl, undecyl and dodecyl as C-5 branched chains showed significantly improved rat intestinal maltase inhibition. In contrast, most 5-C-alkyl-L-ido-DNJ derivatives were weak or moderate inhibitors of the enzymes tested, with only three compounds found to be potent α-glucosidase inhibitors. Docking studies showed different interaction modes of 5-C-ethyl-DNJ and 5-C-octyl-DNJ with ntMGAM and also different binding modes of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives; the importance of the degree of accommodation of the C-5 substituent in the hydrophobic groove and pocket may account for the variation of glycosidase inhibition in the two series of derivatives. The results reported herein are helpful in the design and development of α-glucosidase inhibitors; this may lead to novel agents for the treatment of viral infection and type II diabetes.

Original language	English
Article number	113716
Journal	European Journal of Medicinal Chemistry
Volume	224
DOIs	https://doi.org/10.1016/j.ejmech.2021.113716
State	Published - 2021/11/15

Keywords

C-5 alkylation
DNJ derivatives
Glycosidase inhibition
Iminosugar
Molecular docking
Structure-activity relationship

ASJC Scopus subject areas

Pharmacology
Drug Discovery
Organic Chemistry

Access to Document

10.1016/j.ejmech.2021.113716

Cite this

@article{3d50ab683a814d71a716d6d67acbfbc6,

title = "Synthesis and glycosidase inhibition of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives",

abstract = "5-C-Alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives have been designed and synthesized efficiently from an L-sorbose-derived cyclic nitrone. The DNJ and L-ido-DNJ derivatives with C-5 alkyl chains ranging from methyl to dodecyl were assayed against various glycosidases to study the effect of chain length on enzyme inhibition. Glycosidase inhibition study of DNJ derivatives showed potent and selective inhibitions of α-glucosidase; DNJ derivatives with methyl, pentyl to octyl, undecyl and dodecyl as C-5 branched chains showed significantly improved rat intestinal maltase inhibition. In contrast, most 5-C-alkyl-L-ido-DNJ derivatives were weak or moderate inhibitors of the enzymes tested, with only three compounds found to be potent α-glucosidase inhibitors. Docking studies showed different interaction modes of 5-C-ethyl-DNJ and 5-C-octyl-DNJ with ntMGAM and also different binding modes of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives; the importance of the degree of accommodation of the C-5 substituent in the hydrophobic groove and pocket may account for the variation of glycosidase inhibition in the two series of derivatives. The results reported herein are helpful in the design and development of α-glucosidase inhibitors; this may lead to novel agents for the treatment of viral infection and type II diabetes.",

keywords = "C-5 alkylation, DNJ derivatives, Glycosidase inhibition, Iminosugar, Molecular docking, Structure-activity relationship",

author = "Lu, {Tian Tian} and Yuna Shimadate and Bin Cheng and Uta Kanekiyo and Atsushi Kato and Wang, {Jun Zhe} and Li, {Yi Xian} and Jia, {Yue Mei} and Fleet, {George W.J.} and Yu, {Chu Yi}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Masson SAS",

year = "2021",

month = nov,

day = "15",

doi = "10.1016/j.ejmech.2021.113716",

language = "英語",

volume = "224",

journal = "European Journal of Medicinal Chemistry",

issn = "0223-5234",

publisher = "Elsevier Masson s.r.l.",

}

TY - JOUR

T1 - Synthesis and glycosidase inhibition of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives

AU - Lu, Tian Tian

AU - Shimadate, Yuna

AU - Cheng, Bin

AU - Kanekiyo, Uta

AU - Kato, Atsushi

AU - Wang, Jun Zhe

AU - Li, Yi Xian

AU - Jia, Yue Mei

AU - Fleet, George W.J.

AU - Yu, Chu Yi

PY - 2021/11/15

Y1 - 2021/11/15

N2 - 5-C-Alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives have been designed and synthesized efficiently from an L-sorbose-derived cyclic nitrone. The DNJ and L-ido-DNJ derivatives with C-5 alkyl chains ranging from methyl to dodecyl were assayed against various glycosidases to study the effect of chain length on enzyme inhibition. Glycosidase inhibition study of DNJ derivatives showed potent and selective inhibitions of α-glucosidase; DNJ derivatives with methyl, pentyl to octyl, undecyl and dodecyl as C-5 branched chains showed significantly improved rat intestinal maltase inhibition. In contrast, most 5-C-alkyl-L-ido-DNJ derivatives were weak or moderate inhibitors of the enzymes tested, with only three compounds found to be potent α-glucosidase inhibitors. Docking studies showed different interaction modes of 5-C-ethyl-DNJ and 5-C-octyl-DNJ with ntMGAM and also different binding modes of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives; the importance of the degree of accommodation of the C-5 substituent in the hydrophobic groove and pocket may account for the variation of glycosidase inhibition in the two series of derivatives. The results reported herein are helpful in the design and development of α-glucosidase inhibitors; this may lead to novel agents for the treatment of viral infection and type II diabetes.

AB - 5-C-Alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives have been designed and synthesized efficiently from an L-sorbose-derived cyclic nitrone. The DNJ and L-ido-DNJ derivatives with C-5 alkyl chains ranging from methyl to dodecyl were assayed against various glycosidases to study the effect of chain length on enzyme inhibition. Glycosidase inhibition study of DNJ derivatives showed potent and selective inhibitions of α-glucosidase; DNJ derivatives with methyl, pentyl to octyl, undecyl and dodecyl as C-5 branched chains showed significantly improved rat intestinal maltase inhibition. In contrast, most 5-C-alkyl-L-ido-DNJ derivatives were weak or moderate inhibitors of the enzymes tested, with only three compounds found to be potent α-glucosidase inhibitors. Docking studies showed different interaction modes of 5-C-ethyl-DNJ and 5-C-octyl-DNJ with ntMGAM and also different binding modes of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives; the importance of the degree of accommodation of the C-5 substituent in the hydrophobic groove and pocket may account for the variation of glycosidase inhibition in the two series of derivatives. The results reported herein are helpful in the design and development of α-glucosidase inhibitors; this may lead to novel agents for the treatment of viral infection and type II diabetes.

KW - C-5 alkylation

KW - DNJ derivatives

KW - Glycosidase inhibition

KW - Iminosugar

KW - Molecular docking

KW - Structure-activity relationship

UR - http://www.scopus.com/inward/record.url?scp=85111486138&partnerID=8YFLogxK

U2 - 10.1016/j.ejmech.2021.113716

DO - 10.1016/j.ejmech.2021.113716

M3 - 学術論文

C2 - 34340042

AN - SCOPUS:85111486138

SN - 0223-5234

VL - 224

JO - European Journal of Medicinal Chemistry

JF - European Journal of Medicinal Chemistry

M1 - 113716

ER -

Synthesis and glycosidase inhibition of 5-C-alkyl-DNJ and 5-C-alkyl-L-ido-DNJ derivatives

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Cite this