Designing of acyl sulphonamide based quinoxalinones as multifunctional aldose reductase inhibitors

Yunpeng Ji; Xin Chen; Huan Chen; Xin Zhang; Zhenya Fan; Lina Xie; Bing Ma; Changjin Zhu

doi:10.1016/j.bmc.2019.03.015

Designing of acyl sulphonamide based quinoxalinones as multifunctional aldose reductase inhibitors

Yunpeng Ji, Xin Chen, Huan Chen, Xin Zhang, Zhenya Fan, Lina Xie, Bing Ma^*, Changjin Zhu

^*Corresponding author for this work

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

42 Citations (Scopus)

Abstract

A series of quinoxalinone scaffold-based acyl sulfonamides were designed as aldose reductase inhibitors and evaluated for aldose reductase (ALR2)/aldehyde reductase (ALR1) inhibition and antioxidation. Compounds 9b-g containing styryl side chains at C3-side exhibited good ALR2 inhibitory activity and selectivity. Of them, 9g demonstrated the most potent inhibitory activity with an IC ₅₀ value of 0.100 μM, and also exhibited excellent antioxidant activity, even comparable to the typical antioxidant Trolox. Compounds 9 had higher lipid-water partition coefficients relative to the carboxylic acid compounds 8, indicating that they may have better lipophilicity and membrane permeability. Structure-activity relationship (SAR) studies found that acyl trifluoromethanesulfonamide group at N1 and the C3-dihydroxystyryl side chain were the key structure for improving the aldose reductase inhibitory activity and antioxidant activity.

Original language	English
Pages (from-to)	1658-1669
Number of pages	12
Journal	Bioorganic and Medicinal Chemistry
Volume	27
Issue number	8
DOIs	https://doi.org/10.1016/j.bmc.2019.03.015
Publication status	Published - 15 Apr 2019
Externally published	Yes

Keywords

Acyl trifluoromethanesulfonamide
Aldose reductase inhibitor
Antioxidant
Lipid-water partition coefficient
Molecular docking
Quinoxalinone

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10.1016/j.bmc.2019.03.015

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title = "Designing of acyl sulphonamide based quinoxalinones as multifunctional aldose reductase inhibitors",

abstract = " A series of quinoxalinone scaffold-based acyl sulfonamides were designed as aldose reductase inhibitors and evaluated for aldose reductase (ALR2)/aldehyde reductase (ALR1) inhibition and antioxidation. Compounds 9b-g containing styryl side chains at C3-side exhibited good ALR2 inhibitory activity and selectivity. Of them, 9g demonstrated the most potent inhibitory activity with an IC 50 value of 0.100 μM, and also exhibited excellent antioxidant activity, even comparable to the typical antioxidant Trolox. Compounds 9 had higher lipid-water partition coefficients relative to the carboxylic acid compounds 8, indicating that they may have better lipophilicity and membrane permeability. Structure-activity relationship (SAR) studies found that acyl trifluoromethanesulfonamide group at N1 and the C3-dihydroxystyryl side chain were the key structure for improving the aldose reductase inhibitory activity and antioxidant activity.",

keywords = "Acyl trifluoromethanesulfonamide, Aldose reductase inhibitor, Antioxidant, Lipid-water partition coefficient, Molecular docking, Quinoxalinone",

author = "Yunpeng Ji and Xin Chen and Huan Chen and Xin Zhang and Zhenya Fan and Lina Xie and Bing Ma and Changjin Zhu",

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T1 - Designing of acyl sulphonamide based quinoxalinones as multifunctional aldose reductase inhibitors

AU - Ji, Yunpeng

AU - Chen, Xin

AU - Chen, Huan

AU - Zhang, Xin

AU - Fan, Zhenya

AU - Xie, Lina

AU - Ma, Bing

AU - Zhu, Changjin

PY - 2019/4/15

Y1 - 2019/4/15

N2 - A series of quinoxalinone scaffold-based acyl sulfonamides were designed as aldose reductase inhibitors and evaluated for aldose reductase (ALR2)/aldehyde reductase (ALR1) inhibition and antioxidation. Compounds 9b-g containing styryl side chains at C3-side exhibited good ALR2 inhibitory activity and selectivity. Of them, 9g demonstrated the most potent inhibitory activity with an IC 50 value of 0.100 μM, and also exhibited excellent antioxidant activity, even comparable to the typical antioxidant Trolox. Compounds 9 had higher lipid-water partition coefficients relative to the carboxylic acid compounds 8, indicating that they may have better lipophilicity and membrane permeability. Structure-activity relationship (SAR) studies found that acyl trifluoromethanesulfonamide group at N1 and the C3-dihydroxystyryl side chain were the key structure for improving the aldose reductase inhibitory activity and antioxidant activity.

AB - A series of quinoxalinone scaffold-based acyl sulfonamides were designed as aldose reductase inhibitors and evaluated for aldose reductase (ALR2)/aldehyde reductase (ALR1) inhibition and antioxidation. Compounds 9b-g containing styryl side chains at C3-side exhibited good ALR2 inhibitory activity and selectivity. Of them, 9g demonstrated the most potent inhibitory activity with an IC 50 value of 0.100 μM, and also exhibited excellent antioxidant activity, even comparable to the typical antioxidant Trolox. Compounds 9 had higher lipid-water partition coefficients relative to the carboxylic acid compounds 8, indicating that they may have better lipophilicity and membrane permeability. Structure-activity relationship (SAR) studies found that acyl trifluoromethanesulfonamide group at N1 and the C3-dihydroxystyryl side chain were the key structure for improving the aldose reductase inhibitory activity and antioxidant activity.

KW - Acyl trifluoromethanesulfonamide

KW - Aldose reductase inhibitor

KW - Antioxidant

KW - Lipid-water partition coefficient

KW - Molecular docking

KW - Quinoxalinone

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SN - 0968-0896

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EP - 1669

JO - Bioorganic and Medicinal Chemistry

JF - Bioorganic and Medicinal Chemistry

IS - 8

ER -

Designing of acyl sulphonamide based quinoxalinones as multifunctional aldose reductase inhibitors

Abstract

Keywords

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