Hui Chen Hung scite author profile

The COVID-19 pandemic caused by SARS-CoV-2 is a health threat worldwide. Viral main protease (Mpro, also called 3C-like protease, 3CLpro) is a therapeutic target for drug discovery. Herein, we report that GC376, a broad-spectrum inhibitor targeting Mpro in the picornavirus-like supercluster, is potent inhibitor for the Mpro encoded by SARS-CoV-2 with half-maximum inhibitory concentration (IC50) of 26.4±1.1 nM. In this study, we also show that GC376 inhibits SARS-CoV-2 replication with a half-maximum effective concentration (EC50) of 0.91±0.03 μM. Only a small portion of SARS-CoV-2-Mpro was covalently modified in the excess of GC376 as evaluated by mass spectrometry analysis; indicating that improved inhibitors are needed. Subsequently, molecular docking analysis revealing the recognition and binding groups of GC376 within the active site of SARS-CoV-2 Mpro provides important new information for the optimization of GC376. Given that sufficient safety and efficacy data are available for GC376 as an investigational veterinary drug, expedited development of GC376, or its optimized analogues, for treatment of SARS-CoV-2 infection in human is recommended.

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Identification of BPR3P0128 as an Inhibitor of Cap-Snatching Activities of Influenza Virus

Hsu

Yeh

Lin

et al. 2012

Antimicrob Agents Chemother

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The aim of this study was to identify the antiviral mechanism of a novel compound, BPR3P0128. From a large-scale screening of a library of small compounds, BPR3P compounds were found to be potent inhibitors of influenza viral replication in MadinDarby canine kidney (MDCK) cells. BPR3P0128 exhibited inhibitory activity against both influenza A and B viruses. The 50% inhibitory concentrations were in the range of 51 to 190 nM in MDCK cells, as measured by inhibition-of-cytopathic-effect assays. BPR3P0128 appeared to target the viral replication cycle but had no effect on viral adsorption. The inhibition of capdependent mRNA transcription by BPR3P0128 was more prominent with a concurrent increase in cap-independent cRNA replication in a primer extension assay, suggesting a role of BPR3P0128 in switching transcription to replication. This reduction in mRNA expression resulted from the BPR3P-mediated inhibition of the cap-dependent endoribonuclease (cap-snatching) activities of nuclear extracts containing the influenza virus polymerase complex. No inhibition of binding of 5= viral RNA to the viral polymerase complex by this compound was detected. BPR3P0128 also effectively inhibited other RNA viruses, such as enterovirus 71 and human rhinovirus, but not DNA viruses, suggesting that BPR3P0128 targets a cellular factor(s) associated with viral PB2 cap-snatching activity. The identification of this factor(s) could help redefine the regulation of viral transcription and replication and thereby provide a potential target for antiviral chemotherapeutics.

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Zika Virus NS3 Protease Pharmacophore Anchor Model and Drug Discovery

Pathak

Kuo

Chang

et al. 2020

Sci Rep

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Zika virus (ZIKV) of the flaviviridae family, is the cause of emerging infections characterized by fever, Guillain-Barré syndrome (GBS) in adults and microcephaly in newborns. There exists an urgent unmet clinical need for anti-ZIKV drugs for the treatment of infected individuals. In the current work, we aimed at the promising virus drug target, ZIKV NS3 protease and constructed a Pharmacophore Anchor (PA) model for the active site. The PA model reveals a total of 12 anchors (E, H, V) mapped across the active site subpockets. We further identified five of these anchors to be critical core anchors (CEH1, CH3, CH7, CV1, CV3) conserved across flaviviral proteases. The ZIKV protease PA model was then applied in anchor-enhanced virtual screening yielding 14 potential antiviral candidates, which were tested by in vitro assays. We discovered FDA drugs Asunaprevir and Simeprevir to have potent anti-ZIKV activities with EC 50 values 4.7 µM and 0.4 µM, inhibiting the viral protease with IC 50 values 6.0 µM and 2.6 µM respectively. Additionally, the PA model anchors aided in the exploration of inhibitor binding mechanisms. In conclusion, our PA model serves as a promising guide map for ZIKV protease targeted drug discovery and the identified 'previr' FDA drugs are promising for anti-ZIKV treatments.

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Synthesis of acylguanidine zanamivir derivatives as neuraminidase inhibitors and the evaluation of their bio-activities

et al. 2013

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Anchor-based classification and type-C inhibitors for tyrosine kinases

Hsu

Sung

Lin

et al. 2015

Sci Rep

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Tyrosine kinases regulate various biological processes and are drug targets for cancers. At present, the design of selective and anti-resistant inhibitors of kinases is an emergent task. Here, we inferred specific site-moiety maps containing two specific anchors to uncover a new binding pocket in the C-terminal hinge region by docking 4,680 kinase inhibitors into 51 protein kinases, and this finding provides an opportunity for the development of kinase inhibitors with high selectivity and anti-drug resistance. We present an anchor-based classification for tyrosine kinases and discover two type-C inhibitors, namely rosmarinic acid (RA) and EGCG, which occupy two and one specific anchors, respectively, by screening 118,759 natural compounds. Our profiling reveals that RA and EGCG selectively inhibit 3% (EGFR and SYK) and 14% of 64 kinases, respectively. According to the guide of our anchor model, we synthesized three RA derivatives with better potency. These type-C inhibitors are able to maintain activities for drug-resistant EGFR and decrease the invasion ability of breast cancer cells. Our results show that the type-C inhibitors occupying a new pocket are promising for cancer treatments due to their kinase selectivity and anti-drug resistance.

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Anti‐influenza Drug Discovery: Identification of an Orally Bioavailable Quinoline Derivative through Activity‐ and Property‐Guided Lead Optimization

et al. 2012

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Effect of a Neuropilin-1-Derived Virus Receptor Trap on Enterovirus A71 Infection In Vitro

Wang

Huang

Hung

et al. 2020

Antimicrob Agents Chemother

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We discovered that neuropilin 1 (NRP1) is a new receptor candidate to mediate Enterovirus A71 (EVA71) into cells. In the engineered form as a decoy receptor, NRP1 was able to recognize and neutralize EVA71 but not EV-D68 and CVB3. NRP1 recognizes EVA71 through a novel domain on VP3 capsid protein. The principle in the design, engineering and refinement of the NRP1-based decoy receptor described in this study represents a general and well-suited antiviral strategy.

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Hui Chen Hung

Artificial intelligence approach fighting COVID-19 with repurposing drugs

Discovery of M Protease Inhibitors Encoded by SARS-CoV-2

Identification of BPR3P0128 as an Inhibitor of Cap-Snatching Activities of Influenza Virus

Zika Virus NS3 Protease Pharmacophore Anchor Model and Drug Discovery

Synthesis of acylguanidine zanamivir derivatives as neuraminidase inhibitors and the evaluation of their bio-activities

Anchor-based classification and type-C inhibitors for tyrosine kinases

Anti‐influenza Drug Discovery: Identification of an Orally Bioavailable Quinoline Derivative through Activity‐ and Property‐Guided Lead Optimization

Effect of a Neuropilin-1-Derived Virus Receptor Trap on Enterovirus A71 Infection In Vitro

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