Syntheses and Glycosidase Inhibitory Activities, and in Silico Docking Studies of Pericosine E Analogs Methoxy-Substituted at C6

Syntheses and Glycosidase Inhibitory Activities, and in Silico Docking Studies of Pericosine E Analogs Methoxy-Substituted at C6

Inspired by the significant -glucosidase inhibitory activities of (+)- and (-)-pericosine E, we herein designed and synthesized 16 analogs of these marine natural products bearing a methoxy group instead of a chlorine atom at C6. Four of these compounds exhibited moderate -glucosidase inhibitory a...

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Veröffentlicht in:Marine drugs 2020-04, Vol.18 (4), p.221
Hauptverfasser: Usami, Yoshihide, Higuchi, Megumi, Mizuki, Koji, Yamamoto, Mizuki, Kanki, Mao, Nakasone, Chika, Sugimoto, Yuya, Shibano, Makio, Uesawa, Yoshihiro, Nagai, Junko, Yoneyama, Hiroki, Harusawa, Shinya
Format: Artikel
Sprache:eng
Schlagworte:
alpha-Glucosidases
anti-diabetes drug
C6-methoxy analogue
Computer Simulation
docking simulation
Glycoside Hydrolase Inhibitors - analysis
Glycoside Hydrolase Inhibitors - chemical synthesis
Glycoside Hydrolase Inhibitors - chemistry
Ligands
marine natural product
Molecular Docking Simulation
Molecular Structure
pericosine E
Shikimic Acid - analogs & derivatives
Shikimic Acid - chemistry
Structure-Activity Relationship
α-glucosidase inhibitor
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Zusammenfassung:Inspired by the significant -glucosidase inhibitory activities of (+)- and (-)-pericosine E, we herein designed and synthesized 16 analogs of these marine natural products bearing a methoxy group instead of a chlorine atom at C6. Four of these compounds exhibited moderate -glucosidase inhibitory activities, which were weaker than those of the corresponding chlorine-containing species. The four compounds could be prepared by coupling reactions utilizing the (-)-pericosine B moiety. An additional in silico docking simulation suggested that the reason of reduced activity of the C6-methoxylated analogs might be an absence of hydrogen bonding between a methoxy group with the surrounding amino acid residues in the active site in -glucosidase.
ISSN:1660-3397
1660-3397
DOI:10.3390/md18040221