Graham Simmons scite author profile

Severe acute respiratory syndrome (SARS) is caused by an emergent coronavirus (SARS-CoV), for which there is currently no effective treatment. SARS-CoV mediates receptor binding and entry by its spike (S) glycoprotein, and infection is sensitive to lysosomotropic agents that perturb endosomal pH. We demonstrate here that the lysosomotropic-agent-mediated block to SARSCoV infection is overcome by protease treatment of target-cellassociated virus. In addition, SARS-CoV infection was blocked by specific inhibitors of the pH-sensitive endosomal protease cathepsin L. A cell-free membrane-fusion system demonstrates that engagement of receptor followed by proteolysis is required for SARS-CoV membrane fusion and indicates that cathepsin L is sufficient to activate membrane fusion by SARS-CoV S. These results suggest that SARS-CoV infection results from a unique, three-step process: receptor binding and induced conformational changes in S glycoprotein followed by cathepsin L proteolysis within endosomes. The requirement for cathepsin L proteolysis identifies a previously uncharacterized class of inhibitor for SARSCoV infection.SARS ͉ viral entry ͉ proteolysis ͉ membrane fusion ͉ viral envelope S evere acute respiratory syndrome (SARS) is an acute respiratory illness caused by a newly described coronavirus (SARS-CoV) (1), the result of a zoonosis of a highly related animal coronavirus (2). There continues to be potential for further zoonotic transmission events, leading to the reintroduction of SARS-CoV into the human population. No effective antiviral treatments have been described for SARS, and, although several promising studies are ongoing, there is currently no licensed protective vaccine.SARS-CoV entry into target cells is initiated by engagement of its cellular receptor, angiotensin-converting enzyme 2 (ACE2) by spike (S) glycoprotein (3). Subsequent infection is sensitive to inhibitors of endosomal acidification such as ammonium chloride (4-6), suggesting that SARS-CoV requires a low-pH milieu for infection. On the other hand, S protein can mediate cell-cell fusion at neutral pH (3, 4), indicating that S protein-mediated fusion does not include an absolute requirement for an acidic environment. Given these discordant findings, we hypothesized that cellular factors sensitive to ammonium chloride, such as pH-dependent endosomal proteins, may play a role in mediating SARS-CoV entry. In this study, the requirements for proteases in the activation of viral infectivity and the effect of protease inhibitors on SARS-CoV infection are examined. Our results are consistent with a model in which SARS-CoV employs a unique three-step method for membrane fusion, involving receptorbinding and induced conformational changes in S glycoprotein followed by cathepsin L (CTSL) proteolysis and activation of membrane fusion within endosomes. Cells were maintained in DMEM10 (DMEM supplemented with 10% FBS). A HeLa͞Tva cell line was produced by using pcDNA6-Tva and selection with blasticidin. The 293T cells were transiently transfected wit...

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Characterization of severe acute respiratory syndrome-associated coronavirus (SARS-CoV) spike glycoprotein-mediated viral entry

Simmons

Reeves

Rennekamp

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

538

620

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Severe acute respiratory syndrome-associated coronavirus (SARSCoV) is a rapidly emerging pathogen with potentially serious consequences for public health. Here we describe conditions that result not only in the efficient expression of the SARS-CoV spike (S) protein on the surface of cells, but in its incorporation into lentiviral particles that can be used to transduce cells in an S glycoproteindependent manner. We found that although some primate cell lines, including Vero E6, 293T and Huh-7 cells, could be efficiently transduced by SARS-CoV S glycoprotein pseudoviruses, other cells lines were either resistant or very poorly permissive to virus entry. Infection by pseudovirions could be inhibited by several lysosomotropic agents, suggesting a requirement for acidification of endosomes for efficient S-mediated viral entry. In addition, we were able to develop a cell-cell fusion assay that could be used to monitor S glycoprotein-dependent membrane fusion. Although proteolysis did not enhance the infectivity of cell-free pseudovirions, trypsin activation is required for cell-cell fusion. Additionally, there was no apparent pH requirement for S glycoprotein-mediated cell-cell fusion. Together, these studies describe important tools that can be used to study SARS-CoV S glycoprotein structure and function, including approaches that can be used to identify inhibitors of the entry of SARS-CoV into target cells.

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Protease inhibitors targeting coronavirus and filovirus entry

et al. 2015

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In order to gain entry into cells, diverse viruses, including Ebola virus, SARS-coronavirus and the emerging MERS-coronavirus, depend on activation of their envelope glycoproteins by host cell proteases. The respective enzymes are thus excellent targets for antiviral intervention. In cell culture, activation of Ebola virus, as well as SARS- and MERS-coronavirus can be accomplished by the endosomal cysteine proteases, cathepsin L (CTSL) and cathepsin B (CTSB). In addition, SARS- and MERS-coronavirus can use serine proteases localized at the cell surface, for their activation. However, it is currently unclear which protease(s) facilitate viral spread in the infected host. We report here that the cysteine protease inhibitor K11777, ((2S)-N-[(1E,3S)-1-(benzenesulfonyl)-5-phenylpent-1-en-3-yl]-2-{[(E)-4-methylpiperazine-1-carbonyl]amino}-3-phenylpropanamide) and closely-related vinylsulfones act as broad-spectrum antivirals by targeting cathepsin-mediated cell entry. K11777 is already in advanced stages of development for a number of parasitic diseases, such as Chagas disease, and has proven to be safe and effective in a range of animal models. K11777 inhibition of SARS-CoV and Ebola virus entry was observed in the sub-nanomolar range. In order to assess, whether cysteine or serine proteases promote viral spread in the host, we compared the antiviral activity of an optimized K11777-derivative with that of camostat, an inhibitor of TMPRSS2 and related serine proteases. Employing a pathogenic animal model of SARS-CoV infection, we demonstrated that viral spread and pathogenesis of SARS-CoV is driven by serine rather than cysteine proteases and can be effectively prevented by camostat. Camostat has been clinically used to treat chronic pancreatitis, and thus represents an exciting potential therapeutic for respiratory coronavirus infections. Our results indicate that camostat, or similar serine protease inhibitors, might be an effective option for treatment of SARS and potentially MERS, while vinyl sulfone-based inhibitors are excellent lead candidates for Ebola virus therapeutics.

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Differential Downregulation of ACE2 by the Spike Proteins of Severe Acute Respiratory Syndrome Coronavirus and Human Coronavirus NL63

Glowacka

Bertram

Herzog

et al. 2010

J Virol

473

474

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The human coronaviruses (CoVs) severe acute respiratory syndrome (SARS)-CoV and NL63 employ angiotensin-converting enzyme 2 (ACE2) for cell entry. It was shown that recombinant SARS-CoV spike protein (SARS-S) downregulates ACE2 expression and thereby promotes lung injury. Whether NL63-S exerts a similar activity is yet unknown. We found that recombinant SARS-S bound to ACE2 and induced ACE2 shedding with higher efficiency than NL63-S. Shedding most likely accounted for the previously observed ACE2 downregulation but was dispensable for viral replication. Finally, SARS-CoV but not NL63 replicated efficiently in ACE2-positive Vero cells and reduced ACE2 expression, indicating robust receptor interference in the context of SARS-CoV but not NL63 infection.

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Graham Simmons

Inhibitors of cathepsin L prevent severe acute respiratory syndrome coronavirus entry

Characterization of severe acute respiratory syndrome-associated coronavirus (SARS-CoV) spike glycoprotein-mediated viral entry

Protease inhibitors targeting coronavirus and filovirus entry

Differential Downregulation of ACE2 by the Spike Proteins of Severe Acute Respiratory Syndrome Coronavirus and Human Coronavirus NL63

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