Coronaviruses and their therapy
Identifieur interne : 001685 ( Pmc/Corpus ); précédent : 001684; suivant : 001686Coronaviruses and their therapy
Auteurs : Bart L. Haagmans ; Albert D. M. E. OsterhausSource :
- Antiviral Research [ 0166-3542 ] ; 2006.
Abstract
Coronaviruses may cause respiratory, enteric and central nervous system diseases in many species, including humans. Until recently, the relatively low burden of disease in humans caused by few of these viruses hampered development of coronavirus specific therapeutics. However, the emergence of severe acute respiratory syndrome coronavirus (SARS-CoV) has prompted the discovery of such drugs. Subsequent studies in animal models demonstrated the efficacy of SARS-CoV specific monoclonal antibodies, pegylated-interferon-α and siRNAs against SARS-CoV. Furthermore, several antivirals shown to be effective against other viruses were tested in vitro. Because of availability and shown efficacy, the use of interferons may be considered should SARS-CoV or a related coronavirus (re)-emerge. The more recent design of wide-spectrum inhibitors targeting the coronavirus main proteases may lead to the discovery of new antivirals against multiple coronavirus induced diseases.
Url:
DOI: 10.1016/j.antiviral.2006.05.019
PubMed: 16837072
PubMed Central: 7114240
Links to Exploration step
PMC:7114240Le document en format XML
<record><TEI><teiHeader><fileDesc><titleStmt><title xml:lang="en">Coronaviruses and their therapy</title><author><name sortKey="Haagmans, Bart L" sort="Haagmans, Bart L" uniqKey="Haagmans B" first="Bart L." last="Haagmans">Bart L. Haagmans</name></author><author><name sortKey="Osterhaus, Albert D M E" sort="Osterhaus, Albert D M E" uniqKey="Osterhaus A" first="Albert D. M. E." last="Osterhaus">Albert D. M. E. Osterhaus</name></author></titleStmt><publicationStmt><idno type="wicri:source">PMC</idno><idno type="pmid">16837072</idno><idno type="pmc">7114240</idno><idno type="url">http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7114240</idno><idno type="RBID">PMC:7114240</idno><idno type="doi">10.1016/j.antiviral.2006.05.019</idno><date when="2006">2006</date><idno type="wicri:Area/Pmc/Corpus">001685</idno><idno type="wicri:explorRef" wicri:stream="Pmc" wicri:step="Corpus" wicri:corpus="PMC">001685</idno></publicationStmt><sourceDesc><biblStruct><analytic><title xml:lang="en" level="a" type="main">Coronaviruses and their therapy</title><author><name sortKey="Haagmans, Bart L" sort="Haagmans, Bart L" uniqKey="Haagmans B" first="Bart L." last="Haagmans">Bart L. Haagmans</name></author><author><name sortKey="Osterhaus, Albert D M E" sort="Osterhaus, Albert D M E" uniqKey="Osterhaus A" first="Albert D. M. E." last="Osterhaus">Albert D. M. E. Osterhaus</name></author></analytic><series><title level="j">Antiviral Research</title><idno type="ISSN">0166-3542</idno><idno type="eISSN">1872-9096</idno><imprint><date when="2006">2006</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en"><p>Coronaviruses may cause respiratory, enteric and central nervous system diseases in many species, including humans. Until recently, the relatively low burden of disease in humans caused by few of these viruses hampered development of coronavirus specific therapeutics. However, the emergence of severe acute respiratory syndrome coronavirus (SARS-CoV) has prompted the discovery of such drugs. Subsequent studies in animal models demonstrated the efficacy of SARS-CoV specific monoclonal antibodies, pegylated-interferon-α and siRNAs against SARS-CoV. 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<front><journal-meta><journal-id journal-id-type="nlm-ta">Antiviral Res</journal-id><journal-id journal-id-type="iso-abbrev">Antiviral Res</journal-id><journal-title-group><journal-title>Antiviral Research</journal-title></journal-title-group><issn pub-type="ppub">0166-3542</issn><issn pub-type="epub">1872-9096</issn><publisher><publisher-name>Elsevier B.V.</publisher-name></publisher></journal-meta><article-meta><article-id pub-id-type="pmid">16837072</article-id><article-id pub-id-type="pmc">7114240</article-id><article-id pub-id-type="publisher-id">S0166-3542(06)00170-7</article-id><article-id pub-id-type="doi">10.1016/j.antiviral.2006.05.019</article-id><article-categories><subj-group subj-group-type="heading"><subject>Article</subject></subj-group></article-categories><title-group><article-title>Coronaviruses and their therapy</article-title></title-group><contrib-group><contrib contrib-type="author"><name><surname>Haagmans</surname><given-names>Bart L.</given-names></name></contrib><contrib contrib-type="author"><name><surname>Osterhaus</surname><given-names>Albert D.M.E.</given-names></name><email>a.osterhaus@erasmusmc.nl</email><xref rid="cor1" ref-type="corresp">⁎</xref></contrib></contrib-group><aff>Department of Virology, Erasmus Medical Center Rotterdam, Dr. Molewaterplein 50, 3015 GE Rotterdam, The Netherlands</aff><author-notes><corresp id="cor1"><label>⁎</label>Corresponding author. Tel.: +31 10 4088066; fax: +31 10 4089485. <email>a.osterhaus@erasmusmc.nl</email></corresp></author-notes><pub-date pub-type="pmc-release"><day>19</day><month>6</month><year>2006</year></pub-date><pmc-comment> PMC Release delay is 0 months and 0 days and was based on .</pmc-comment>
<pub-date pub-type="ppub"><month>9</month><year>2006</year></pub-date><pub-date pub-type="epub"><day>19</day><month>6</month><year>2006</year></pub-date><volume>71</volume><issue>2</issue><fpage>397</fpage><lpage>403</lpage><history><date date-type="received"><day>24</day><month>4</month><year>2006</year></date><date date-type="accepted"><day>31</day><month>5</month><year>2006</year></date></history><permissions><copyright-statement>Copyright © 2006 Elsevier B.V. All rights reserved.</copyright-statement><copyright-year>2006</copyright-year><copyright-holder>Elsevier B.V.</copyright-holder><license><license-p>Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.</license-p></license></permissions><abstract><p>Coronaviruses may cause respiratory, enteric and central nervous system diseases in many species, including humans. Until recently, the relatively low burden of disease in humans caused by few of these viruses hampered development of coronavirus specific therapeutics. However, the emergence of severe acute respiratory syndrome coronavirus (SARS-CoV) has prompted the discovery of such drugs. Subsequent studies in animal models demonstrated the efficacy of SARS-CoV specific monoclonal antibodies, pegylated-interferon-α and siRNAs against SARS-CoV. Furthermore, several antivirals shown to be effective against other viruses were tested in vitro. Because of availability and shown efficacy, the use of interferons may be considered should SARS-CoV or a related coronavirus (re)-emerge. The more recent design of wide-spectrum inhibitors targeting the coronavirus main proteases may lead to the discovery of new antivirals against multiple coronavirus induced diseases.</p></abstract><kwd-group><title>Keywords</title><kwd>Coronaviruses</kwd><kwd>SARS</kwd><kwd>Antivirals</kwd><kwd>Therapy</kwd></kwd-group></article-meta></front><body><sec><label>1</label><title>Introduction</title><p>Coronaviruses are positive stranded RNA viruses named after their “corona” like morphological appearance (<xref rid="bib50" ref-type="bibr">Weiss and Navas-Martin, 2005</xref>). Their genome is the largest RNA genome to date and packaged together with the nucleocapsid protein, several membrane proteins (M, E and sometimes a hemagglutinin esterase protein) and the spike protein. Translation of the replicase gene produces two large poly-proteins with diverse enzymatic activities needed for efficient replication. A phylogenetic analysis of the replicase gene, using a distantly related torovirus as an outgroup, demonstrated that three groups of coronaviruses can be distinguished and that despite a number of unique features, severe acute respiratory syndrome coronavirus (SARS-CoV) is most closely related to group 2 coronaviruses (<xref rid="bib39" ref-type="bibr">Snijder et al., 2003</xref>). Viruses that belong to group1 include transmissible gastroenteritis virus of pigs, feline infectious peritonitis virus of cats and the human coronaviruses 229E and HCoV-NL63 (<xref rid="fig1" ref-type="fig">Fig. 1</xref>). In group 2, viruses such as murine hepatitis virus, bovine coronavirus, human coronavirus OC43, HKU1 and SARS-CoV are classified. Group 3 constitutes only avian coronaviruses, such as infectious bronchitis virus and turkey coronavirus. Each of the three groups of viruses classified thus far encodes a set of unique small proteins with unknown functions. Coronaviruses cause acute and chronic respiratory, enteric and or central nervous system diseases in many species, including humans (<xref rid="bib50" ref-type="bibr">Weiss and Navas-Martin, 2005</xref>). Until recently, the need to develop antiviral drugs was limited because human coronaviruses like 229E and OC43 only cause a mild disease in humans. The burden of disease for HCoV-NL63 and HKU1 are not known at present. However, the emergence of SARS changed this picture. In this review we discuss the latest developments in antiviral drug testing specifically with regard to SARS-CoV and whenever applicable we broaden the scope to other coronaviruses. A range of compounds may interfere with the lifecycle of SARS-CoV as shown in <xref rid="fig2" ref-type="fig">Fig. 2</xref>and discussed below.<fig id="fig1"><label>Fig. 1</label><caption><p>Phylogenetic tree based on deduced amino acid sequences of the coronavirus replicase ORF1b gene for bovine coronavirus (BCoV), human coronavirus 22E (HuCoV-OC43), mouse hepatitis virus (MHV), SARS-CoV, infectious bronchitis virus (IBV), transmissible gastroenteritis virus (TGEV), feline infectious peritonitis virus (FIPV), porcine epidemic diarrhea virus (PEDV), human coronavirus 229E (HuCoV-229E), human coronavirus NL63 (HuCoV-NL63) and Berne Torovirus (used as an outgroup).</p></caption><graphic xlink:href="gr1"></graphic></fig><fig id="fig2"><label>Fig. 2</label><caption><p>Schematic overview of the SARS-CoV lifecycle and inhibitors of viral replication.</p></caption><graphic xlink:href="gr2"></graphic></fig></p></sec><sec><label>2</label><title>SARS</title><p>The 2002–2003 SARS outbreak affected more than 8000 individuals worldwide and caused 774 fatalities (<xref rid="bib33" ref-type="bibr">Poon et al., 2004</xref>). The lung pathology of fatal SARS showed bronchial epithelial denudation, diffuse alveolar damage and type-2 pneumocyte hyperplasia. In patients who died late in the course of the disease, also syncytial cells were seen in the alveoli. Subsequently, three laboratories independently reported the isolation of a novel coronavirus from clinical specimens of SARS patients (<xref rid="bib14" ref-type="bibr">Drosten et al., 2003</xref>, <xref rid="bib32" ref-type="bibr">Peiris et al., 2003</xref>, <xref rid="bib22" ref-type="bibr">Ksiazek et al., 2003</xref>). The virus was visualized by electron microscopy and identification of the virus was accomplished through sequencing of different fragments of the replicase gene, obtained by random-priming RT-PCR and coronavirus consensus primers. Most importantly, SARS-CoV was detected in lung biopsies and bronchoalveolar lavage of SARS patients using virus culture, RT-PCR, and electron microscopy, whereas viral antigen was detected in alveolar epithelial cells and macrophages by immunohistology (<xref rid="bib30" ref-type="bibr">Nicholls et al., 2006</xref>). To further establish SARS-CoV as the cause of the disease, Koch's postulates were fulfilled by reproduction of the disease in a relevant animal model. Infection of cynomolgous macaques with SARS-CoV led to disease that was pathologically similar to that seen in human patients with SARS, with epithelial necrosis, serosanguinous alveolar exudates, hyaline membranes, type-2 pneumocyte hyperplasia, diffuse alveolar damage and the presence of syncytia (<xref rid="bib15" ref-type="bibr">Fouchier et al., 2003</xref>, <xref rid="bib23" ref-type="bibr">Kuiken et al., 2003</xref>). These experiments also led to the development of an animal model to test the efficacy of candidate vaccines and antivirals.</p><p>SARS was characterised by a rapidly progressive atypical pneumonia refractory to conventional antibiotic therapy. Next efforts to treat SARS patients mainly were based on the use of ribavirin and corticosteroids. Ribavirin, which targets IMP dehydrogenase, has been known a long time as a broad-spectrum antiviral agent. However, it is efficacy in SARS patients remains questionable and in vitro studies also did not show significant antiviral activity (<xref rid="bib12" ref-type="bibr">Cinatl et al., 2003a</xref>). More recent studies demonstrated that ribavirin even enhanced the infectivity of SARS-CoV in mice (<xref rid="bib5" ref-type="bibr">Barnard et al., 2006</xref>). Collectively these data do not support the use of ribavirin for treating SARS in humans. The use of steroids in SARS patients was mainly based on the observation that a clinical deterioration was observed in most patients late during the disease when SARS-CoV became undetectable. In most cases the concomitant use of other drugs confounded the results and the fact that most studies did not contain a control group made it quite difficult to determine whether steroids exerted a beneficial effect. Although efforts were made to control the infection through use of antivirals and corticosteroids, isolation and quarantine measures eventually proved instrumental in control of the epidemic at that time.</p></sec><sec><label>3</label><title>Inhibition of SARS-CoV entry</title><p>Antibodies to the SARS-CoV spike protein have been shown to block entry (<xref rid="bib43" ref-type="bibr">Sui et al., 2004</xref>). In SARS patients that recover, high levels of spike glycoprotein-specific antibody responses are observed, suggesting that antibody responses play a role in determining the ultimate disease outcome of SARS-CoV-infected patients (<xref rid="bib59" ref-type="bibr">Zhang et al., 2006</xref>). Although attempts have been made to test the efficacy of serum preparations from seroconvalescent SARS patients in the acute phase of SARS, no conclusive evidence has been obtained regarding their efficacy (<xref rid="bib51" ref-type="bibr">Wong et al., 2003</xref>, <xref rid="bib9" ref-type="bibr">Cheng et al., 2005</xref>), although convalescent immunoglobulines exerted antiviral activity when given to macaques prior SARS-CoV challenge (Haagmans et al., unpublished observations).</p><p>The SARS-CoV spike protein binds to angiotensin-converting enzyme 2 (ACE2), which acts as the functional receptor for SARS-CoV (<xref rid="bib25" ref-type="bibr">Li et al., 2003</xref>) and soluble forms of ACE2 and ACE2 antibodies block this interaction and inhibit SARS-CoV infection. The S1 region within the spike protein and more specifically a 193-amino acid fragment of the S protein (corresponding to residues 318–510) has been identified as the region which interacts with ACE2 (<xref rid="bib52" ref-type="bibr">Wong et al., 2004</xref>). Monoclonal antibodies directed against the S1 domain of the SARS-CoV spike protein were shown to block association with ACE2 (<xref rid="bib43" ref-type="bibr">Sui et al., 2004</xref>). Because other epitopes may be hidden as a result of extensive glycosylation, <xref rid="bib2" ref-type="bibr">Balzarini (2005)</xref> hypothesized that drugs directed against these carbohydrate components may select for mutant virus strains that progressively gain deletions in these glycosylation sites uncovering previously hidden epitopes, resulting in increased immunological neutralization.</p><p>The protective efficacy of SARS-CoV neutralizing antibodies was demonstrated convincingly in several animal models. Mice efficiently controlled SARS-CoV infection upon passive transfer of serum from mice that recovered from SARS-CoV infection (<xref rid="bib42" ref-type="bibr">Subbarao et al., 2004</xref>). The concept that antibodies protect against SARS has been further explored through the generation of human monoclonal antibodies against SARS-CoV. Prophylactic administration of a monoclonal antibody at 10 mg/kg reduced replication of SARS coronavirus in the lungs of infected ferrets by 3 logs, completely prevented the development of SARS coronavirus-induced macroscopic lung pathology, and abolished shedding of virus in pharyngeal secretions (<xref rid="bib46" ref-type="bibr">ter Meulen et al., 2004</xref>). Other monoclonal antibodies were evaluated for their efficacy in mouse- and hamster-models (<xref rid="bib44" ref-type="bibr">Sui et al., 2005</xref>, <xref rid="bib34" ref-type="bibr">Roberts et al., 2006</xref>). When given prophylactically to mice at doses therapeutically achievable in humans, viral replication was reduced by more than 4 orders of magnitude to below assay limits. Post exposure treatment also alleviated the viral burden and associated pathological findings in a golden Syrian hamster model of SARS-CoV infection. After hamsters were treated with the antibody their viral burden was reduced by 10<sup>2.4</sup> to 10<sup>3.9</sup> 50% tissue-culture infectious doses per gram of tissue, and the severity of associated pathological findings, including interstitial pneumonitis and consolidation, was also remarkably reduced (<xref rid="bib34" ref-type="bibr">Roberts et al., 2006</xref>).</p><p><xref rid="bib47" ref-type="bibr">Traggiai et al. (2004)</xref> developed an efficient method to make human monoclonal SARS-CoV neutralizing antibodies from memory B cells. These results further proved the feasibility of immunoprophylaxis using human monoclonal Abs and provided evidence that vaccines able to elicit neutralizing antibodies are likely to be effective against SARS. However, as has been demonstrated for feline coronavirus, antibodies directed against the coronavirus spike protein sometimes enhance infection. Macrophages are able to take up feline coronavirus-antibody complexes more efficiently causing the virus to replicate to higher titers. Passive and active immunization against feline coronavirus thus may enhance feline coronavirus infection in vivo and cause early death (<xref rid="bib49" ref-type="bibr">Vennema et al., 1990</xref>). The question remains whether such a scenario also holds for SARS-CoV. Although enhanced entry of certain SARS-CoV pseudotyped viruses in Vero cells was observed in the presence of antibodies directed against the spike protein (<xref rid="bib56" ref-type="bibr">Yang et al., 2005a</xref>), its relevance in vivo still awaits further investigation. Thus, caution has to be taken into account by developing strategies to block SARS-CoV entry by antibodies.</p></sec><sec><label>4</label><title>Inhibition of SARS-CoV fusion</title><p>After engagement with ACE2, SARS-CoV fuses with host cell membranes by a fusion mechanism similar to that exerted by class I fusion proteins. The conformational changes of the two heptad regions located in the S2 region, HR-1 and HR-2, cause the formation of an oligomeric structure, leading to fusion between the viral and target-cell membranes. Therefore, blocking the HR1–HR2 interaction may reveal novel strategies to inhibit entry of SARS-CoV. Indeed, synthetic peptides derived from the HR2 region that bind with high affinity to a peptide from the HR1 region interfere with conformational changes leading to the 6-helix bundle formation and subsequently block SARS-CoV infection (<xref rid="bib60" ref-type="bibr">Zhu et al., 2004</xref>, <xref rid="bib27" ref-type="bibr">Liu et al., 2004</xref>, <xref rid="bib6" ref-type="bibr">Bosch et al., 2004</xref>, <xref rid="bib29" ref-type="bibr">Ni et al., 2005</xref>). However, their relatively low efficacy may hamper their development as SARS-CoV antivirals at this moment.</p><p>More recent observations have demonstrated that besides conformational changes in the HR1 and HR2 interaction, lysosomal cysteine proteases are required for productive infection. SARS-CoV but not HCoV-NL63 utilizes cathepsin L to infect ACE2-expressing cells. Inhibitors of cathepsin L, like calpain inhibitor III or VI block SARS-CoV infection (<xref rid="bib37" ref-type="bibr">Simmons et al., 2005</xref>, <xref rid="bib19" ref-type="bibr">Huang et al., 2006</xref>). At this moment the exact mechanism of action of these enzymes is not clear.</p></sec><sec><label>5</label><title>Inhibition of SARS-CoV replication by interferons</title><p>After SARS-CoV has entered the cell and has fused with the cellular membranes, the positive stranded coronavirus genome is released and viral replication is initiated. However, the subsequent formation of double stranded RNA intermediates is a strong trigger of innate immune responses. Through interaction with toll-like receptors, production of type 1 interferons (IFNs) is initiated to limit viral replication. Interestingly, several studies have demonstrated that IFN production by SARS-CoV infected cells may be limited; macrophages as well as 293 cells infected with SARS-CoV do not show induction of IFN-beta gene expression (<xref rid="bib11" ref-type="bibr">Cheung et al., 2005</xref>, <xref rid="bib40" ref-type="bibr">Spiegel et al., 2005</xref>). Therefore, SARS-CoV most likely encodes viral proteins that interfere with one of the signaling cascades leading to the production of type 1 IFNs in these cells. On the other hand, SARS-CoV remains sensitive to the action of exogenous IFNs. Several studies noted that IFNs inhibited the replication of SARS-CoV in cell culture in vitro, IFN-β being more potent than either IFN-α or -γ (<xref rid="bib12" ref-type="bibr">Cinatl et al., 2003a</xref>, <xref rid="bib16" ref-type="bibr">Haagmans et al., 2004</xref>, <xref rid="bib18" ref-type="bibr">Hensley et al., 2004</xref>, <xref rid="bib41" ref-type="bibr">Stroher et al., 2004</xref>). IFN-β in conjunction with IFN-γ synergistically inhibit the replication of SARS-CoV (<xref rid="bib35" ref-type="bibr">Sainz et al., 2004</xref>). Similarly, IFNs inhibit replication of other animal and human coronaviruses (<xref rid="bib48" ref-type="bibr">Turner et al., 1986</xref>, <xref rid="bib38" ref-type="bibr">Smith et al., 1987</xref>, <xref rid="bib31" ref-type="bibr">Pei et al., 2001</xref>).</p><p>Viruses causing lysis of their target cell are most effectively inhibited by IFNs through their antiviral activity in non-infected cells. Therefore, IFNs have their highest utility in the prophylaxis or early post-exposure management of SARS. Pegylated IFN-α has been shown to effectively reduce viral replication and excretion, viral antigen expression by type 1 pneumocytes and the pulmonary damage in cynomolgous macaques that were infected experimentally with SARS-CoV (<xref rid="bib16" ref-type="bibr">Haagmans et al., 2004</xref>). Evidence of a protective effect of IFN-alpha also has been obtained in a preliminary study during the SARS outbreak with interferon alfacon-1 in combination with corticosteroids (<xref rid="bib28" ref-type="bibr">Loutfy et al., 2003</xref>). Because IFNs are commercially available for the treatment of hepatitis B and C, these drugs could be considered for treatment of SARS should it re-emerge.</p></sec><sec><label>6</label><title>Inhibition of SARS-CoV replication by RNA interference</title><p>Because RNA interference (RNAi) provides effective antiviral defence in plants and other organisms, several studies have focused on harnessing RNAi to inhibit viral infection (<xref rid="bib24" ref-type="bibr">Leonard and Schaffer, 2006</xref>). To explore the possibility of interrupting SARS-coronavirus replication with siRNAs, specific siRNAs targeting the spike gene in SARS coronavirus have been synthesised. These siRNAs effectively and specifically inhibited gene expression of the spike protein in SARS-coronavirus-infected cells (<xref rid="bib58" ref-type="bibr">Zhang et al., 2004</xref>). Another study assessed the in vitro efficiacy of six siRNA molecules targeting different sites of the replicase 1A region of the SARS-coronavirus genome (<xref rid="bib17" ref-type="bibr">He et al., 2003</xref>) Judged by morphological changes, three of the molecules markedly inhibited the cytopathic effects caused by viral infection and replication. The three siRNAs also inhibited the infection and replication of different strains of SARS coronavirus, indicating that siRNAs targeting the replicase 1A region may be an option for future clinical use.</p><p>Potent siRNA inhibitors of SARS-CoV in vitro, targeting the SARS-CoV genome at S protein- and nsp12-coding regions, were further evaluated for their efficacy in a rhesus macaque SARS model (<xref rid="bib26" ref-type="bibr">Li et al., 2005</xref>), and found to provide relief from SARS-CoV infection-induced fever, diminish SARS-CoV levels and reduce acute diffuse alveolar damage.</p></sec><sec><label>7</label><title>Inhibition of SARS-CoV replication by targeting viral proteases</title><p>The pivotal roles played by coronavirus main proteases in controlling viral replication and transcription through extensive processing of replicase polyproteins, together with the absence of closely related cellular homologues, identified these proteins as a potentially important target for antiviral drug design (<xref rid="bib1" ref-type="bibr">Anand et al., 2003</xref>). The SARS-CoV encoded main protease cleaves the replicase polyproteins at 11 conserved sites, in order to generate the functional proteins necessary for virus replication. The crystal structures of the SARS-CoV main protease complexed with various substrate analogues have been determined (<xref rid="bib55" ref-type="bibr">Yang et al., 2003</xref>). Recently, <xref rid="bib57" ref-type="bibr">Yang et al. (2005b)</xref> reported the discovery of a highly conserved region based on four crystal structures and one homology model of main protease representing all three genetic clusters of the genus <italic>Coronavirus</italic>. Furthermore they revealed a uniform inhibition mechanism from the structures of main protease-inhibitor complexes from SARS-CoV and TGEV. A structure-assisted optimization program yielded compounds with fast in vitro inactivation of multiple CoV main proteases, potent antiviral activity, and extremely low cellular toxicity in cell-based assays. Further modification could rapidly lead to the discovery of a single agent with clinical potential against existing and possible future emerging CoV-associated diseases. Also some other main protease inhibitors were shown to inhibit SARS-CoV replication in vitro. Cinanserin, niclosamide anilide and a Phe–Phe dipeptide inhibitor were found to inhibit the main protease and inhibited virus replication in Vero cells (<xref rid="bib36" ref-type="bibr">Shie et al., 2005</xref>, <xref rid="bib8" ref-type="bibr">Chen et al., 2005</xref>).</p><p>The lopinavir/ritonavir combination was first considered a potentially useful treatment after in vitro studies showed it had antiviral activity against SARS-CoV. <xref rid="bib7" ref-type="bibr">Chan et al. (2003)</xref> compared outcomes in people who received lopinavir/ritonavir as initial treatment, and as rescue therapy, with matched controls; all patients were given ribavirin and steroids according to a standardised protocol. The addition of lopinavir/ritonavir as initial treatment was associated with a statistically significant reduction in the overall death rate and intubation rate compared with matched controls. <xref rid="bib10" ref-type="bibr">Chu et al. (2004)</xref> also assessed treatment with lopinavir/ritonavir compared with historic controls; all patients were also treated with ribavirin and steroids in a similar protocol to that of Chan and colleagues. Adverse events (development of acute respiratory distress syndrome [ARDS] or death within 21 days) were significantly lower in the lopinavir/ritonavir group than in the historic controls. In addition, a significant reduction in the need for rescue pulsed steroids for severe respiratory deterioration and significantly lower nosocomial infections were also noted in those treated with lopinavir/ritonavir, compared with controls. By multivariate analysis, it was demonstrated that the lack of treatment with lopinavir/ritonavir, age 60 years old or greater, and positive hepatitis B carrier status were independent predictors of an adverse outcome including death or the development of ARDS requiring intensive care within 21 days of onset of illness. Based on these studies, lopinavir/ritonavir appears to be a promising anti-SARS-CoV agent. Other protease inhibitors have been studied in vitro for potential antiviral effects in SARS. For example, <xref rid="bib54" ref-type="bibr">Yamamoto et al. (2004)</xref> screened a set of compounds that included antiviral drugs already widely used, and found that nelfinavir strongly inhibited SARS-CoV replication. In addition, calpain inhibitor VI (Val-Leu-CHO) and calpain inhibitor III (Z-Val-Phe-Ala-CHO) inhibited SARS-CoV (<xref rid="bib4" ref-type="bibr">Barnard et al., 2004</xref>), suggesting that other protease inhibitors may also be useful in the treatment of SARS.</p></sec><sec><label>8</label><title>Inhibition of SARS-CoV replication by other compounds</title><p>A large number of compounds that inhibit SARS-CoV replication with unknown mechanism of action have been identified. Glycyrrhizin, which consists of one molecule glycyrrhetinic acid linked to two molecules of glucuronic acid, is known to exert antiviral activity against a range of viruses. It also inhibits SARS-CoV replication, although relatively high concentrations are needed (<xref rid="bib13" ref-type="bibr">Cinatl et al., 2003b</xref>). The mechanism of glycyrrhizin-induced inhibition of viral replication – and specifically SARS-CoV replication – is unclear, but possibly involves inhibition of replication through an antiviral effect of nitric oxide (NO). SARS-CoV replication is inhibited when DETA NONOate – a NO donor compound – is added to the culture medium (<xref rid="bib13" ref-type="bibr">Cinatl et al., 2003b</xref>). Inhibition of SARS-CoV infection in vitro has also been reported for a nitric oxide generating compound, <italic>S</italic>-nitroso-<italic>N</italic>-acetylpenicillamine (SNAP), but only at high concentrations (<xref rid="bib21" ref-type="bibr">Keyaerts et al., 2004b</xref>).</p><p>A wide variety of pyridine <italic>N</italic>-oxide derivatives have been found to be inhibitory against feline coronavirus (FIPV strain) and human SARS-CoV (Frankfurt strain-1) in CRFK and simian kidney (Vero) cell cultures, respectively (<xref rid="bib3" ref-type="bibr">Balzarini et al., 2006</xref>).</p><p>Bananin shown to inhibit both the ATPase and helicase activity of the SARS-CoV inhibits SARS-CoV replication in vitro (<xref rid="bib45" ref-type="bibr">Tanner et al., 2005</xref>). The 4-aminoquinoline chloroquine, best known for its antimalarial effects, has been recommended for its potential use, preferably in combination with other antivirals, in the treatment of SARS (<xref rid="bib20" ref-type="bibr">Keyaerts et al., 2004a</xref>). Chloroquine inhibits SARS-CoV replication in Vero cells at an EC<sub>50</sub> of 8.8 μM which approximates the plasma concentrations of chloroquine reached during treatment of acute malaria.</p><p>Finally, <xref rid="bib53" ref-type="bibr">Wu et al. (2004)</xref> tested >10,000 agents against SARS-CoV in Vero cells and selected approximately 50 active compounds. 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