Your search keyword '"Xue, Jian-Xia"' showing total 2 results

1. Design, synthesis, discovery and SAR of the fused tricyclic derivatives of indoline and imidazolidinone against DENV replication and infection.

Author

Qian, Weiyi, Xue, Jian-Xia, Xu, Jinxin, Li, Feng, Zhou, Guang-Feng, Wang, Fang, Luo, Rong-Hua, Liu, Jinsong, Zheng, Yong-Tang, and Zhou, Guo-Chun

Abstract

[Display omitted] • Fused tricyclic indoline-imidazolidinone analogs were discovered to be active to DENV. • Indoline carbohydrazine has derived more active compounds than indoline carboamide. • Post-treatment is effective time of addition and 15 targets the post-entry stages. • RdRp of DENV NS5 is the drug target for these series of compounds. • Hydrogen bonds and hydrophobic interactions contribute fitted low energy conformation. Dengue virus, belonging to a genus Flavivirus , caused public health problem in recent years. One controversial vaccine of DENV was approved and there is no antiviral for the clinic treatment of DENV, therefore, efficient antivirals to DENV are of great medical significance. In this study, we conducted the design, synthesis, cell-based and target-based activity evaluation of 28 compounds based on indoline structural skeleton against DENV infection. Among them, 13 active compounds against DENV infection were discovered and their structure–activity relationship (SAR) was summarized. In this study, indoline carbohydrazine has derived more active compounds than indoline carboamide. It is discovered that TBS group exhibits a good pharmacophore to enhance anti-DENV activity. Further exploration indicated that post-treatment acts as effective time of addition and compound 15 targeting the post-entry stages of DENV2 viral life cycle. SPR imaging results support there are strong interaction of 13 and 15 with RdRp and compounds 13 and 15 reduce RdRp enzymatic activity, revealing that RdRp of DENV NS5 is the drug target for these series of compounds. Molecular docking deciphered the relationship of the structural feature with the putative binding mode by 13 and 15 with RdRp domain of DENV2 NS5 by hydrogen bonds and hydrophobic interactions to establish the fitted low energy conformation. Future studies will focus on designing more potent inhibitors for the treatment and prevention of dengue virus replication and infection, and understanding the more profound underlying structural features of inhibitors and drug action of the mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

2. Antiviral effects of the fused tricyclic derivatives of indoline and imidazolidinone on ZIKV infection and RdRp activities of ZIKV and DENV.

Author

Zhou, Guang-Feng, Li, Feng, Xue, Jian-Xia, Qian, Weiyi, Gu, Xue-Rong, Zheng, Chang-Bo, Li, Chunyan, Yang, Liu-Meng, Xiong, Si-Dong, Zhou, Guo-Chun, and Zheng, Yong-Tang

Subjects

*ZIKA virus infections, *LIFE cycles (Biology), *DRUG discovery, *ZIKA virus, *DENGUE viruses, *ANTIVIRAL agents, *INDOLINE, *QUINAZOLINONES, *HYDRAZINE derivatives

Abstract

• Fused tricyclic derivatives of indoline and imidazolidinone target ZIKV and its RdRp. • Some distinctive compounds are selective ZIKV inhibitors or DENV inhibitors. • Some broad-spectrum inhibitors of ZIKV- and DENV-infection are discovered. • 12, 17 and 28 are more active against Asian ZIKV strain than African ZIKV strain. • A compound's antiviral differentiation is not always related to anti-RdRp differentiation. • 12 majorly acts on post-infection of RNA synthesis stage of ZIKV life cycle. The prevalence and ravages of Zika virus (ZIKV) seriously endanger human health, especially causing significant neurological defects in both neonates as pediatric microcephaly and adults as Guillain–Barré syndrome. In this work, we studied anti-ZIKV effects of the fused tricyclic derivatives of indoline and imidazolidinone and discovered that some of them are valuable leads for drug discovery of anti-ZIKV agents. The current results show that certain compounds are broad-spectrum inhibitors of ZIKV- and dengue virus (DENV)-infection while distinctive compounds are selective ZIKV inhibitors or selective DENV inhibitors. Compounds of 12, 17 and 28 are more active against Asian ZIKV SZ-VIV01 strain than African ZIKV MR766 strain. It is valued that silylation makes six TBS compounds of 4-nitrophenyl hydrazine series and phenyl hydrazine series more active against ZIKV infection than their phenols. Time-of-addition and withdrawal studies indicate that compound 12 majorly acts on post-infection of RNA synthesis stage of ZIKV life cycle. Moreover, compounds of 12, 17 and 18 are anti-ZIKV agents with the inhibitory activities to ZIKV NS5 RdRp while 12 doesn't inhibit DENV infection even though it is a DENV RdRp inhibitor, 17 is an active agent against DENV infection but is only a weak DENV NS5 RdRp inhibitor, and 28 is inactive against DENV infection and not a DENV NS5 RdRp inhibitor. As a result, a compound's antiviral difference between ZIKV and DENV is not always related to anti-RdRp difference between ZIKV RdRp and DENV RdRp, and structural features of a compound play important roles in executing antiviral and anti-RdRp functions. Further discovery of highly potent broad-spectrum or selective agents against infection by ZIKV and DENV will be facilitated. [ABSTRACT FROM AUTHOR]

Published

2023