Exploring substituent diversity on pyrrolidine-aryltriazole iminosugars: Structural basis of β-glucocerebrosidase inhibition

Macarena Martínez-Bailén; Ana T. Carmona; Athéna C. Patterson-Orazem; Raquel L. Lieberman; Daisuke Ide; Moemi Kubo; Atsushi Kato; Inmaculada Robina; Antonio J. Moreno-Vargas

doi:10.1016/j.bioorg.2019.02.025

Exploring substituent diversity on pyrrolidine-aryltriazole iminosugars: Structural basis of β-glucocerebrosidase inhibition

Macarena Martínez-Bailén, Ana T. Carmona^*, Athéna C. Patterson-Orazem, Raquel L. Lieberman, Daisuke Ide, Moemi Kubo, Atsushi Kato, Inmaculada Robina, Antonio J. Moreno-Vargas

^*この論文の責任著者

薬剤部

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

18 被引用数 (Scopus)

抄録

The synthesis of a library of pyrrolidine-aryltriazole hybrids through CuAAC between two epimeric dihydroxylated azidomethylpyrrolidines and differently substituted phenylacetylenes is reported. The evaluation of the new compounds as inhibitors of lysosomal β-glucocerebrosidase showed the importance of the substitution pattern of the phenyl moiety in the inhibition. Crystallization and docking studies revealed key interactions of the pyrrolidine motif with aminoacid residues of the catalytic site while the aryltriazole moiety extended along a hydrophobic surface groove. Some of these compounds were able to increase the enzyme activity in Gaucher patient fibroblasts, acting as a new type of chemical chaperone for Gaucher disease.

本文言語	英語
ページ（範囲）	652-664
ページ数	13
ジャーナル	Bioorganic Chemistry
巻	86
DOI	https://doi.org/10.1016/j.bioorg.2019.02.025
出版ステータス	出版済み - 2019/05

ASJC Scopus 主題領域

生化学
分子生物学
創薬
有機化学

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10.1016/j.bioorg.2019.02.025

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引用スタイル

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title = "Exploring substituent diversity on pyrrolidine-aryltriazole iminosugars: Structural basis of β-glucocerebrosidase inhibition",

abstract = "The synthesis of a library of pyrrolidine-aryltriazole hybrids through CuAAC between two epimeric dihydroxylated azidomethylpyrrolidines and differently substituted phenylacetylenes is reported. The evaluation of the new compounds as inhibitors of lysosomal β-glucocerebrosidase showed the importance of the substitution pattern of the phenyl moiety in the inhibition. Crystallization and docking studies revealed key interactions of the pyrrolidine motif with aminoacid residues of the catalytic site while the aryltriazole moiety extended along a hydrophobic surface groove. Some of these compounds were able to increase the enzyme activity in Gaucher patient fibroblasts, acting as a new type of chemical chaperone for Gaucher disease.",

keywords = "Chaperones, Click chemistry, Iminosugars, Protein crystallization, Pyrrolidines, Triazoles, β-glucocerebrosidase inhibitors",

author = "Macarena Mart{\'i}nez-Bail{\'e}n and Carmona, {Ana T.} and Patterson-Orazem, {Ath{\'e}na C.} and Lieberman, {Raquel L.} and Daisuke Ide and Moemi Kubo and Atsushi Kato and Inmaculada Robina and Moreno-Vargas, {Antonio J.}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Inc.",

year = "2019",

month = may,

doi = "10.1016/j.bioorg.2019.02.025",

language = "英語",

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T1 - Exploring substituent diversity on pyrrolidine-aryltriazole iminosugars

T2 - Structural basis of β-glucocerebrosidase inhibition

AU - Martínez-Bailén, Macarena

AU - Carmona, Ana T.

AU - Patterson-Orazem, Athéna C.

AU - Lieberman, Raquel L.

AU - Ide, Daisuke

AU - Kubo, Moemi

AU - Kato, Atsushi

AU - Robina, Inmaculada

AU - Moreno-Vargas, Antonio J.

PY - 2019/5

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N2 - The synthesis of a library of pyrrolidine-aryltriazole hybrids through CuAAC between two epimeric dihydroxylated azidomethylpyrrolidines and differently substituted phenylacetylenes is reported. The evaluation of the new compounds as inhibitors of lysosomal β-glucocerebrosidase showed the importance of the substitution pattern of the phenyl moiety in the inhibition. Crystallization and docking studies revealed key interactions of the pyrrolidine motif with aminoacid residues of the catalytic site while the aryltriazole moiety extended along a hydrophobic surface groove. Some of these compounds were able to increase the enzyme activity in Gaucher patient fibroblasts, acting as a new type of chemical chaperone for Gaucher disease.

AB - The synthesis of a library of pyrrolidine-aryltriazole hybrids through CuAAC between two epimeric dihydroxylated azidomethylpyrrolidines and differently substituted phenylacetylenes is reported. The evaluation of the new compounds as inhibitors of lysosomal β-glucocerebrosidase showed the importance of the substitution pattern of the phenyl moiety in the inhibition. Crystallization and docking studies revealed key interactions of the pyrrolidine motif with aminoacid residues of the catalytic site while the aryltriazole moiety extended along a hydrophobic surface groove. Some of these compounds were able to increase the enzyme activity in Gaucher patient fibroblasts, acting as a new type of chemical chaperone for Gaucher disease.

KW - Chaperones

KW - Click chemistry

KW - Iminosugars

KW - Protein crystallization

KW - Pyrrolidines

KW - Triazoles

KW - β-glucocerebrosidase inhibitors

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U2 - 10.1016/j.bioorg.2019.02.025

DO - 10.1016/j.bioorg.2019.02.025

M3 - 学術論文

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AN - SCOPUS:85062097207

SN - 0045-2068

VL - 86

SP - 652

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JO - Bioorganic Chemistry

JF - Bioorganic Chemistry

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