Chonsaeng Kim scite author profile

Middle East respiratory syndrome coronavirus (MERS-CoV) causes severe acute respiratory illness with fever, cough and shortness of breath. Up to date, it has resulted in 1826 human infections, including 649 deaths. Analogous to picornavirus 3C protease (3C), 3C-like protease (3CL) is critical for initiation of the MERS-CoV replication cycle and is thus regarded as a validated drug target. As presented here, our peptidomimetic inhibitors of enterovirus 3C (6b, 6c and 6d) inhibited 3CL of MERS-CoV and severe acute respiratory syndrome coronavirus (SARS-CoV) with IC values ranging from 1.7 to 4.7 μM and from 0.2 to 0.7 μM, respectively. In MERS-CoV-infected cells, the inhibitors showed antiviral activity with EC values ranging from 0.6 to 1.4 μM, by downregulating the viral protein production in cells as well as reducing secretion of infectious viral particles into culture supernatants. They also suppressed other α- and β-CoVs from human and feline origin. These compounds exhibited good selectivity index (over 70 against MERS-CoV) and could lead to the development of broad-spectrum antiviral drugs against emerging CoVs and picornaviruses.

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Synergistic antiviral activity of gemcitabine and ribavirin against enteroviruses

Kang

Kim

et al. 2015

Antiviral Research

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Enteroviruses are major causative agents of various human diseases, and some of them are currently considered to be an enormous threat to public health. However, no effective therapy is currently available for the treatment of these infections. We identified gemcitabine, a nucleoside-analog drug used for cancer treatment, from a screen of bioactive chemicals as a novel inhibitor of coxsackievirus B3 (CVB3) and enterovirus 71 (EV71). Gemcitabine potently inhibited the proliferation of CVB3 and EV71, as well as the replication of CVB3 and EV71 replicons, in cells with a low micromolar IC50 (1-5 μM). Its strong inhibitory effect was also observed in cells infected with human rhinoviruses, demonstrating broad-spectrum antiviral effects on enteroviruses. Mechanistically, an extensive analysis excluded the involvement of 2C, 3A, IRES-dependent translation, and also that of polyprotein processing in the antiviral effects of gemcitabine. Importantly, gemcitabine in combination with ribavirin, an antiviral drug currently being used against a few RNA viruses, exhibited a synergistic antiviral effect on the replication of CVB3 and EV71 replicons. Consequently, our results clearly demonstrate a new indication for gemcitabine as an effective broad-spectrum inhibitor of enteroviruses and strongly suggest a new therapeutic strategy using gemcitabine alone or in combination with ribavirin for the treatment of various diseases associated with enterovirus infection.

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RIP3 Regulates Autophagy and Promotes Coxsackievirus B3 Infection of Intestinal Epithelial Cells

Harris

Morosky

Drummond

et al. 2015

Cell Host & Microbe

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Summary Receptor Interacting Protein Kinase-3 (RIP3) is an essential kinase for necroptotic cell death signaling and has been implicated in antiviral cell death signaling upon DNA virus infection. Here, we performed high-throughout RNAi screening and identified RIP3 as a positive regulator of coxsackievirus B3 (CVB) replication in intestinal epithelial cells (IECs). RIP3 regulates autophagy, a process utilized by CVB for viral replication factory assembly, and depletion of RIP3 inhibits autophagic flux and leads to the accumulation of autophagosomes and amphisomes. Additionally, later in infection, RIP3 is cleaved by the CVB-encoded cysteine protease 3Cpro, which serves to abrogate RIP3-mediated necrotic signaling and induce a non-necrotic form of cell death. Taken together, our results show that temporal targeting of RIP3 allows CVB to benefit from its roles in regulating autophagy while inhibiting the induction of necroptotic cell death.

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Echovirus 7 Entry into Polarized Intestinal Epithelial Cells Requires Clathrin and Rab7

Kim

Bergelson

2012

mBio

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ABSTRACTEnteroviruses invade the host by crossing the intestinal mucosa, which is lined by polarized epithelium. A number of enteroviruses, including echoviruses (EV) and group B coxsackieviruses (CVB), initiate infection by attaching to decay-accelerating factor (DAF), a molecule that is highly expressed on the apical surface of polarized epithelial cells. We previously observed that entry of DAF-binding CVB3 into polarized intestinal epithelial cells occurs by an unusual endocytic mechanism that requires caveolin but does not involve clathrin or dynamin. Here we examined the entry of a DAF-binding echovirus, EV7. We found that drugs, small interfering RNAs (siRNAs), and dominant negative mutants that target factors required for clathrin-mediated endocytosis, including clathrin and dynamin, inhibited both EV7 infection and internalization of virions from the cell surface. Once virus had entered the cell, it colocalized with markers of early endosomes (EEA1) and then late endosomes (LAMP-2). Inhibition of endosomal maturation—with siRNAs or dominant negative mutants targeting Rab5 and Rab7—inhibited infection and prevented release of viral RNA into the cell. These results indicate that EV7 is internalized by clathrin-mediated endocytosis and then moves to early and late endosomes before releasing its RNA. Trafficking through endosomes is known to be important for viruses that depend on low pH or endosomal cathepsin proteases to complete the entry process. However, we found that EV7 infection required neither low pH nor cathepsins.IMPORTANCEThe results demonstrate that echovirus 7 (EV7), after binding to decay-accelerating factor (DAF) on the cell surface, enters cells by clathrin-mediated endocytosis; this entry mechanism differs markedly from that of another DAF-binding enterovirus, coxsackievirus B3 (CVB3). Thus, after attachment to the same cell surface receptor, these closely related viruses enter the same cells by different mechanisms. The cellular cues required for release of viral RNA from the enterovirus capsid (“uncoating”) remain poorly defined. We found that EV7 moved to late endosomes and that release of RNA depended on endosomal maturation; nonetheless, EV7 did not depend on the endosomal factors implicated in uncoating and entry by other viruses. The results suggest either that an unidentified endosomal factor is essential for uncoating of EV7 or that trafficking through the endosome is an essential step in a pathway that leads to another intracellular organelle where uncoating is completed.

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Echovirus 1 Entry into Polarized Caco-2 Cells Depends on Dynamin, Cholesterol, and Cellular Factors Associated with Macropinocytosis

Krieger

Kim

Zhang

et al. 2013

J Virol

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c Enteroviruses invade their hosts by crossing the intestinal epithelium. We have examined the mechanism by which echovirus 1 (EV1) enters polarized intestinal epithelial cells (Caco-2). Virus binds to VLA-2 on the apical cell surface and moves rapidly to early endosomes. Using inhibitory drugs, dominant negative mutants, and small interfering RNAs (siRNAs) to block specific endocytic pathways, we found that virus entry requires dynamin GTPase and membrane cholesterol but is independent of both clathrin-and caveolin-mediated endocytosis. Instead, infection requires factors commonly associated with macropinocytosis, including amiloride-sensitive Na ؉ /H ؉ exchange, protein kinase C, and C-terminal-binding protein-1 (CtBP1); furthermore, EV1 accumulates rapidly in intracellular vesicles with dextran, a fluid-phase marker. These results suggest a role for macropinocytosis in the process by which EV1 enters polarized cells to initiate infection.

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Chonsaeng Kim

Identification and evaluation of potent Middle East respiratory syndrome coronavirus (MERS-CoV) 3CL Pro inhibitors

Synergistic antiviral activity of gemcitabine and ribavirin against enteroviruses

RIP3 Regulates Autophagy and Promotes Coxsackievirus B3 Infection of Intestinal Epithelial Cells

Echovirus 7 Entry into Polarized Intestinal Epithelial Cells Requires Clathrin and Rab7

Echovirus 1 Entry into Polarized Caco-2 Cells Depends on Dynamin, Cholesterol, and Cellular Factors Associated with Macropinocytosis

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