Optimization of carbazole carboxamide RORγt agonists: Challenges in improving the metabolic stability and maintaining the agonistic activity

Nannan Sun; Mingcheng Yu; Zhengyuan Jiang; Feng Yang; Lixue Lu; Yuehan Xia; Yunpeng Zhao; Yafei Huang; Song Chen; Shijie Chen; Cheng Luo; Yonghui Wang; Qiong Xie

doi:10.1016/j.ejmech.2023.115213

Optimization of carbazole carboxamide RORγt agonists: Challenges in improving the metabolic stability and maintaining the agonistic activity

Nannan Sun
, Mingcheng Yu
, Zhengyuan Jiang
, Feng Yang
, Lixue Lu
, Yuehan Xia
, Yunpeng Zhao
, Yafei Huang
, Song Chen
, Shijie Chen
, Cheng Luo
, Yonghui Wang^*
, Qiong Xie^*

^*此作品的通讯作者

Fudan University
Fudan Zhangjiang Institute
Zhengzhou University
CAS - Shanghai Institute of Materia Medica

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

Based on two previously discovered carbazole carboxamide retinoic acid receptor-related orphan receptor-γt (RORγt) agonists 6 and 7 (t_1/2 = 8.7 min and 16.4 min in mouse liver microsome, respectively), new carbazole carboxamides were designed and synthesized according to the molecular mechanism of action (MOA) and metabolic site analysis with the aim of identifying novel RORγt agonists with optimal pharmacological and metabolic profiles. By modifying the “agonist lock” touching substitutions on carbazole ring, introducing heteroatoms into different parts of the molecule and attaching a side chain to the sulfonyl benzyl moiety, several potent RORγt agonists were identified with greatly improved metabolic stability. Best overall properties were achieved in compound (R)-10f with high agonistic activities in RORγt dual FRET (EC₅₀ = 15.6 nM) and Gal4 reporter gene (EC₅₀ = 141 nM) assays and greatly improved metabolic stability (t_1/2 > 145 min) in mouse liver microsome. Besides, the binding modes of (R)-10f and (S)-10f in RORγt ligand binding domain (LBD) were also studied. Altogether, the optimization of carbazole carboxamides led to the discovery of (R)-10f as a potential small molecule therapeutics for cancer immunotherapy.

源语言	英语
文章编号	115213
期刊	European Journal of Medicinal Chemistry
卷	251
DOI	https://doi.org/10.1016/j.ejmech.2023.115213
出版状态	已出版 - 5 5月 2023
已对外发布	是

联合国可持续发展目标

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可持续发展目标 3 良好健康与福祉

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10.1016/j.ejmech.2023.115213

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Sun, N., Yu, M., Jiang, Z., Yang, F., Lu, L., Xia, Y., Zhao, Y., Huang, Y., Chen, S., Chen, S., Luo, C., Wang, Y., & Xie, Q. (2023). Optimization of carbazole carboxamide RORγt agonists: Challenges in improving the metabolic stability and maintaining the agonistic activity. European Journal of Medicinal Chemistry, 251, 文章 115213. https://doi.org/10.1016/j.ejmech.2023.115213

@article{609953ef82cf47c1aa7eb3b72d2b352e,

title = "Optimization of carbazole carboxamide RORγt agonists: Challenges in improving the metabolic stability and maintaining the agonistic activity",

abstract = "Based on two previously discovered carbazole carboxamide retinoic acid receptor-related orphan receptor-γt (RORγt) agonists 6 and 7 (t1/2 = 8.7 min and 16.4 min in mouse liver microsome, respectively), new carbazole carboxamides were designed and synthesized according to the molecular mechanism of action (MOA) and metabolic site analysis with the aim of identifying novel RORγt agonists with optimal pharmacological and metabolic profiles. By modifying the “agonist lock” touching substitutions on carbazole ring, introducing heteroatoms into different parts of the molecule and attaching a side chain to the sulfonyl benzyl moiety, several potent RORγt agonists were identified with greatly improved metabolic stability. Best overall properties were achieved in compound (R)-10f with high agonistic activities in RORγt dual FRET (EC50 = 15.6 nM) and Gal4 reporter gene (EC50 = 141 nM) assays and greatly improved metabolic stability (t1/2 > 145 min) in mouse liver microsome. Besides, the binding modes of (R)-10f and (S)-10f in RORγt ligand binding domain (LBD) were also studied. Altogether, the optimization of carbazole carboxamides led to the discovery of (R)-10f as a potential small molecule therapeutics for cancer immunotherapy.",

keywords = "Agonistic activity, Carbazole carboxamide, Co-crystallization, Metabolic stability, Molecular docking, RORγt agonists",

author = "Nannan Sun and Mingcheng Yu and Zhengyuan Jiang and Feng Yang and Lixue Lu and Yuehan Xia and Yunpeng Zhao and Yafei Huang and Song Chen and Shijie Chen and Cheng Luo and Yonghui Wang and Qiong Xie",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier Masson SAS",

year = "2023",

month = may,

day = "5",

doi = "10.1016/j.ejmech.2023.115213",

language = "英语",

volume = "251",

journal = "European Journal of Medicinal Chemistry",

issn = "0223-5234",

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TY - JOUR

T1 - Optimization of carbazole carboxamide RORγt agonists

T2 - Challenges in improving the metabolic stability and maintaining the agonistic activity

AU - Sun, Nannan

AU - Yu, Mingcheng

AU - Jiang, Zhengyuan

AU - Yang, Feng

AU - Lu, Lixue

AU - Xia, Yuehan

AU - Zhao, Yunpeng

AU - Huang, Yafei

AU - Chen, Song

AU - Chen, Shijie

AU - Luo, Cheng

AU - Wang, Yonghui

AU - Xie, Qiong

PY - 2023/5/5

Y1 - 2023/5/5

N2 - Based on two previously discovered carbazole carboxamide retinoic acid receptor-related orphan receptor-γt (RORγt) agonists 6 and 7 (t1/2 = 8.7 min and 16.4 min in mouse liver microsome, respectively), new carbazole carboxamides were designed and synthesized according to the molecular mechanism of action (MOA) and metabolic site analysis with the aim of identifying novel RORγt agonists with optimal pharmacological and metabolic profiles. By modifying the “agonist lock” touching substitutions on carbazole ring, introducing heteroatoms into different parts of the molecule and attaching a side chain to the sulfonyl benzyl moiety, several potent RORγt agonists were identified with greatly improved metabolic stability. Best overall properties were achieved in compound (R)-10f with high agonistic activities in RORγt dual FRET (EC50 = 15.6 nM) and Gal4 reporter gene (EC50 = 141 nM) assays and greatly improved metabolic stability (t1/2 > 145 min) in mouse liver microsome. Besides, the binding modes of (R)-10f and (S)-10f in RORγt ligand binding domain (LBD) were also studied. Altogether, the optimization of carbazole carboxamides led to the discovery of (R)-10f as a potential small molecule therapeutics for cancer immunotherapy.

AB - Based on two previously discovered carbazole carboxamide retinoic acid receptor-related orphan receptor-γt (RORγt) agonists 6 and 7 (t1/2 = 8.7 min and 16.4 min in mouse liver microsome, respectively), new carbazole carboxamides were designed and synthesized according to the molecular mechanism of action (MOA) and metabolic site analysis with the aim of identifying novel RORγt agonists with optimal pharmacological and metabolic profiles. By modifying the “agonist lock” touching substitutions on carbazole ring, introducing heteroatoms into different parts of the molecule and attaching a side chain to the sulfonyl benzyl moiety, several potent RORγt agonists were identified with greatly improved metabolic stability. Best overall properties were achieved in compound (R)-10f with high agonistic activities in RORγt dual FRET (EC50 = 15.6 nM) and Gal4 reporter gene (EC50 = 141 nM) assays and greatly improved metabolic stability (t1/2 > 145 min) in mouse liver microsome. Besides, the binding modes of (R)-10f and (S)-10f in RORγt ligand binding domain (LBD) were also studied. Altogether, the optimization of carbazole carboxamides led to the discovery of (R)-10f as a potential small molecule therapeutics for cancer immunotherapy.

KW - Agonistic activity

KW - Carbazole carboxamide

KW - Co-crystallization

KW - Metabolic stability

KW - Molecular docking

KW - RORγt agonists

UR - https://www.scopus.com/pages/publications/85150788327

U2 - 10.1016/j.ejmech.2023.115213

DO - 10.1016/j.ejmech.2023.115213

M3 - 文章

C2 - 36905917

AN - SCOPUS:85150788327

SN - 0223-5234

VL - 251

JO - European Journal of Medicinal Chemistry

JF - European Journal of Medicinal Chemistry

M1 - 115213

ER -

Optimization of carbazole carboxamide RORγt agonists: Challenges in improving the metabolic stability and maintaining the agonistic activity

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