Scaffold Simplification Strategy Leads to a Novel Generation of Dual Human Immunodeficiency Virus and Enterovirus-A71 Entry Inhibitors

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2019 Dec 7

PMID 31809045

Citations 13

Authors

Belen Martinez-Gualda

Liang Sun

Olaia Marti-Mari

Sam Noppen

Rana Abdelnabi

Carol M Bator

Ernesto Quesada

Leen Delang

Carmen Mirabelli

Hyunwook Lee

Dominique Schols

Johan Neyts

Susan Hafenstein

Maria-Jose Camarasa

Federico Gago

Ana San-Felix

Affiliations

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Abstract

Currently, there are only three FDA-approved drugs that inhibit human immunodeficiency virus (HIV) entry-fusion into host cells. The situation is even worse for enterovirus EV71 infection for which no antiviral therapies are available. We describe here the discovery of potent entry dual inhibitors of HIV and EV71. These compounds contain in their structure three or four tryptophan (Trp) residues linked to a central scaffold. Critical for anti-HIV/EV71 activity is the presence of extra phenyl rings, bearing one or two carboxylates, at the C2 position of the indole ring of each Trp residue. The most potent derivatives, and , inhibit early steps of the replicative cycles of HIV-1 and EV-A71 by interacting with their respective viral surfaces (glycoprotein gp120 of HIV and the fivefold axis of the EV-A71 capsid). The high potency, low toxicity, facile chemical synthesis, and great opportunities for chemical optimization make them useful prototypes for future medicinal chemistry studies.

Citing Articles

A tradeoff between enterovirus A71 particle stability and cell entry.

Catching A, Yeh M, Bianco S, Capponi S, Andino R Nat Commun. 2023; 14(1):7450.

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Investigation of the Vibrational Characteristics of 6-Isocyano-1-Methyl-1H-Indole: Utilizing the Isonitrile Group as an Infrared Probe.

You M, Gao Z, Zhou L, Guo C, Guo Q Molecules. 2023; 28(19).

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C-2 Thiophenyl Tryptophan Trimers Inhibit Cellular Entry of SARS-CoV-2 through Interaction with the Viral Spike (S) Protein.

Gargantilla M, Frances C, Adhav A, Forcada-Nadal A, Martinez-Gualda B, Marti-Mari O J Med Chem. 2023; 66(15):10432-10457.

PMID: 37471688 PMC: 10424185. DOI: 10.1021/acs.jmedchem.3c00576.

Efficient Strategy to Design Protease Inhibitors: Application to Enterovirus 71 2A Protease.

Chen T, Grauffel C, Yang W, Chen Y, Yuan H, Lim C ACS Bio Med Chem Au. 2023; 2(4):437-449.

PMID: 37102167 PMC: 10125330. DOI: 10.1021/acsbiomedchemau.2c00001.

Advances in anti-EV-A71 drug development research.

Wang S, Pang Z, Fan H, Tong Y J Adv Res. 2023; 56:137-156.

PMID: 37001813 PMC: 10834817. DOI: 10.1016/j.jare.2023.03.007.