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Antiviral agents for the treatment of COVID-19: Progress and challenges

Manmeet Singh, Emmie de Wit

2022Cell Reports Medicine82 citationsDOIOpen Access PDF

Abstract

The COVID-19 pandemic has seen clinical development and use of antiviral therapies at an unprecedented speed. Antiviral therapies have greatly improved the clinical outcome in COVID-19 patients, especially when administered early after diagnosis. Here, we discuss the successes and challenges of COVID-19 antiviral therapies and lessons for future pandemics. The COVID-19 pandemic has seen clinical development and use of antiviral therapies at an unprecedented speed. Antiviral therapies have greatly improved the clinical outcome in COVID-19 patients, especially when administered early after diagnosis. Here, we discuss the successes and challenges of COVID-19 antiviral therapies and lessons for future pandemics. The COVID-19 pandemic has seen clinical development and use of antiviral therapies on a scale unprecedented for an acute viral infection. Although antivirals have been used effectively on a large scale to treat chronic virus infections like HIV and hepatitis C virus, their use to treat acute viral infections has been limited until now by a lack of effective antiviral therapies and a small window of opportunity to apply treatment and improve patient outcomes.1Ryu W.S. Antiviral Therapy.in: Molecular Virology of Human Pathogenic Viruses. Elsevier, 2017: 367-381https://doi.org/10.1016/B978-0-12-800838-6.00026-6Crossref Google Scholar Two years after the emergence of SARS-CoV-2, antiviral therapies are available that can be administered early after diagnosis in patients at risk of developing severe disease, as are therapies to improve outcome once severe disease has developed (Figure 1).2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar These treatments are generally divided into two classes: direct-acting antivirals and host-directed therapies. Direct-acting antivirals are those therapies that target components of the virus and inhibit its replication. For these direct-acting antivirals to be effective, they must be administered early during infection before the virus reaches its replication peak and are therefore used to prevent progression to severe disease.3Griffin D.O. Brennan-Rieder D. Ngo B. Kory P. Confalonieri M. Shapiro L. Iglesias J. Dube M. Nanda N. In G.K. et al.The Importance of Understanding the Stages of COVID-19 in Treatment and Trials.AIDS Rev. 2021; 23: 40-47https://doi.org/10.24875/AIDSRev.200001261Crossref PubMed Scopus (28) Google Scholar Host-directed therapies on the other hand either target components of the host cell required for replication of the virus or aim to dampen the dysregulated inflammatory response to infection; in the case of COVID-19, only the latter class of host-directed therapies are currently available. These target the outsize inflammatory response involved in severe COVID-19 disease manifestations. These manifestations—ranging from dyspnea and hypoxia to acute respiratory distress syndrome and multi-organ failure—occur later during infection. Therefore, host-directed therapies are used during the later stages of COVID-19 disease, when virus replication is typically past its peak and the patient is hospitalized and requires respiratory support.3Griffin D.O. Brennan-Rieder D. Ngo B. Kory P. Confalonieri M. Shapiro L. Iglesias J. Dube M. Nanda N. In G.K. et al.The Importance of Understanding the Stages of COVID-19 in Treatment and Trials.AIDS Rev. 2021; 23: 40-47https://doi.org/10.24875/AIDSRev.200001261Crossref PubMed Scopus (28) Google Scholar There are currently no uniform, global COVID-19 treatment guidelines; for the purpose of clarity, this article mainly focuses on the current USA treatment guidelines.2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar Remdesivir, a nucleotide analog, was the first direct-acting antiviral to receive FDA Emergency Use Authorization (EUA) for the treatment of COVID-19 patients just months after the COVID-19 pandemic was declared,4Tran A. Witek Jr., T.J. The Emergency Use Authorization of Pharmaceuticals: History and Utility During the COVID-19 Pandemic.Pharmaceut. Med. 2021; 35: 203-213https://doi.org/10.1007/s40290-021-00397-6Crossref PubMed Scopus (5) Google Scholar based on data showing a reduced time to recovery in hospitalized COVID-19 patients. Next, a neutralizing monoclonal antibody, bamlanivimab, was shown to reduce symptoms of COVID-19 and hospitalization rates; it received EUA for the treatment of COVID-19 patients.4Tran A. Witek Jr., T.J. The Emergency Use Authorization of Pharmaceuticals: History and Utility During the COVID-19 Pandemic.Pharmaceut. Med. 2021; 35: 203-213https://doi.org/10.1007/s40290-021-00397-6Crossref PubMed Scopus (5) Google Scholar This monoclonal antibody was followed by several other monoclonal antibodies and cocktails thereof (Figure 1); other neutralizing monoclonal antibodies are in use outside the USA, and many monoclonal antibodies are still being evaluated in clinical trials. In December 2021, two orally available direct-acting antivirals with clinical benefit in preventing progression to severe disease, hospitalization, and/or death received FDA EUA: molnupiravir, a nucleotide analog, and paxlovid, a protease inhibitor.2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar Together, the direct-acting antivirals have greatly improved the outlook of COVID-19 patients known to be at risk of developing severe COVID-19 due to underlying conditions (Table 1).Table 1Efficacy and mechanism of action of COVID-19 antiviral therapies depicted in Figure 1TherapeuticMode of actionReduction in hospitalizationDirect-acting antiviralRemdesivirnucleotide analog87%aEfficacy observed with outpatient treatment.Molnupiravirnucleotide analog30%Paxlovidprotease inhibitor90%Bamlanivimab and etesevimabneutralizing mAbs70%Casirivimab and imdevimabneutralizing mAbs66%Sotrovimabneutralizing mAb85%Tixagevimab and cilgavimabneutralizing mAbs77%Regdanvimabneutralizing mAb70%Amubarvimab and romlusevimabneutralizing mAbs80%TherapeuticMode of actionReduction in mortalityHost-directed therapyDexamethasone or other corticosteroidimmune suppression17%–21%Baricitinib or tofacitinibJanus kinase inhibitor18%Tocilizumab or sarilumabIL6 inhibitor13%a Efficacy observed with outpatient treatment. Open table in a new tab In patients that have already progressed to more severe disease, host-directed treatments are used to achieve general immune suppression through use of dexamethasone or other corticosteroids. Other therapies involve a more targeted manipulation of the immune response by using inhibitors of IL6, one of the hallmarks of severe COVID-19 identified early in the pandemic, or by inhibiting Janus kinase and thereby cytokine signaling (Figure 1).2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar Although these immunomodulators have resulted in a decreased mortality in severe cases of COVID-19, the effect of these late-stage treatments is much smaller than that of direct-acting antivirals administered in the early disease stage (Table 1). Therefore, patient survival depends heavily on advanced supportive care including prone positioning, mechanical ventilation, and extracorporeal membrane oxygenation (ECMO).2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar Several therapeutics (direct-acting and host-directed) are still in the preclinical and clinical stages of development5Regulatory Affairs Professionals SocietyCOVID-19 therapeutics tracker.https://www.raps.org/news-and-articles/news-articles/2020/3/covid-19-therapeutics-trackerDate: 2021Google Scholar and more treatment options will hopefully become available before too long. For example, clinical trial data for fluvoxamine recently showed a clinical benefit in preventing disease progression6Reis G. Dos Santos Moreira-Silva E.A. Silva D.C.M. Thabane L. Milagres A.C. Ferreira T.S. Dos Santos C.V.Q. de Souza Campos V.H. Nogueira A.M.R. de Almeida A. et al.Effect of early treatment with fluvoxamine on risk of emergency care and hospitalisation among patients with COVID-19: the TOGETHER randomised, platform clinical trial.Lancet Glob. Health. 2022; 10: e42-e51https://doi.org/10.1016/S2214-109X(21)00448-4Abstract Full Text Full Text PDF PubMed Scopus (84) Google Scholar through a currently unknown mechanism. Through the investment of an inordinate amount of money and time, as well as unprecedented collaborations between scientists, clinicians, and the biopharmaceutical industry, we now have several effective antiviral therapies to treat COVID-19.2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar However, we must also acknowledge that many severe cases of COVID-19 still occur and more antiviral therapies are needed. A critical assessment of gaps in treatment success is necessary so we can define ways to speed up recovery, reduce the long-term effects of SARS-CoV-2 infection, and increase the rate of survival in severe COVID-19 patients. We should also look beyond COVID-19 and draw lessons from this pandemic that will prepare us better for future pandemics that will undoubtedly emerge. The value of administering direct-acting antivirals to at-risk patients early after diagnosis is clear from Table 1: the majority of severe COVID-19 cases can be prevented through timely administration of (a combination of) direct-acting antivirals. Currently, these direct-acting therapeutics are only used in patients at known risk for severe COVID-19 due to the presence of risk factors such as age and obesity, or comorbidities like diabetes and heart conditions.2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar Ideally, direct-acting antivirals would be used on an even larger scale, in symptomatic patients not known to be at risk of severe disease, to reduce the time to recovery, potentially reduce long-lasting effects of infection, and potentially even reduce onward transmission of the virus. Due to the nature of direct-acting antivirals, their efficacy increases even with small reductions in time to treatment initiation. Therefore, the availability of rapid diagnostics with a low limit of detection, combined with a low threshold for prescription, and availability in local pharmacies are essential to get the largest possible clinical benefit from direct-acting antivirals. Another important consideration is the administration route of direct-acting antivirals. As mentioned above, remdesivir was the first antiviral therapy to receive FDA EUA and the only fully licensed antiviral therapy to date. However, remdesivir treatment is complicated by the need to administer it intravenously on 5 consecutive days. Therefore, use of remdesivir has so far mostly been limited to patients already hospitalized with COVID-19. A recent clinical trial studying the effect of outpatient treatment with remdesivir (i.e., sooner after diagnosis) showed a much larger beneficial effect of remdesivir with this early administration.7Gottlieb R.L. Vaca C.E. Paredes R. Mera J. Webb B.J. Perez G. Oguchi G. Ryan P. Nielsen B.U. Brown M. et al.Early Remdesivir to Prevent Progression to Severe Covid-19 in Outpatients.N. Engl. J. Med. 2022; 386: 305-315https://doi.org/10.1056/NEJMoa2116846Crossref PubMed Scopus (133) Google Scholar Thus, efforts should be made to develop direct-acting antivirals that can be self-administered, preferentially orally, or subcutaneously or intranasally if oral administration is not feasible. Alternatively, facilities and protocols that can ensure daily outpatient treatment administration could be developed; this has occurred for monoclonal antibody administration and would be possible for other treatments, even if those antiviral therapies might have to be administered on several consecutive days. However, at-home use of antivirals puts a high bar on these drugs: they must lack significant side effects or negative interactions with other medications since patients taking them would not be under continuous medical supervision. Treatment of patients upon diagnosis rather than at the time of hospitalization means treating a significantly larger number of people, since most patients never progress to severe disease, even without treatment. Therefore, next-generation direct-acting antivirals should be easy to administer, mass-produce, distribute, and store. Additionally, the pricing of these antivirals should be such that they would be affordable to all patients. Since the majority of the world population resides in low- or middle-income countries, equitable access to antiviral therapies has to be ensured through waving of patent licensing fees; international financial support; or investment in production, storage, and distribution infrastructure in these countries to help reduce the cost. Finally, the selection of viral variants with mutations conferring resistance to direct-acting antivirals is a major concern. Even though SARS-CoV-2 causes an acute infection in immune-competent individuals, treatment courses are short. SARS-CoV-2 has proof-reading abilities when copying its RNA—the emergence of several Variants of Concern (VOC)8World Health OrganizationTracking SARS-CoV-2 variants.https://www.who.int/en/activities/tracking-SARS-CoV-2-variants/Date: 2021Google Scholar has put a focus on the ability of SARS-CoV-2 to escape from effective therapeutics. The B.1.351 (beta) and P.1 (gamma) VOC encode amino acid substitutions in their spike proteins that sharply reduced the efficacy of the bamlanivimab and etesivimab monoclonal antibody cocktail. The FDA EUA for these monoclonals was therefore temporarily withdrawn.2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar The emergence of the B.1.1.529 (omicron) VOC is posing even larger problems, since most monoclonal antibody treatments under FDA EUA have reduced neutralizing capacity against this VOC in vitro.9Planas D. Saunders N. Maes P. Guivel-Benhassine F. Planchais C. Buchrieser J. Bolland W.H. Porrot F. Staropoli I. Lemoine F. et al.Considerable escape of SARS-CoV-2 Omicron to antibody neutralization.Nature. 2021; https://doi.org/10.1038/s41586-021-04389-zCrossref Scopus (255) Google Scholar Combination treatments consisting of two or more direct-acting antivirals from a different class (e.g., a nucleotide analog plus monoclonal antibody) will likely reduce the chance of escape variants to emerge and may improve the clinical benefit of treatment. Combination treatment should therefore be investigated in clinical trials. Severe lower respiratory tract infections have historically been extremely difficult to treat, and COVID-19 is no exception. As explained above, direct-acting antivirals have very limited effect once severe disease manifests because the virus replication is already much reduced. Rather, the disease is driven by the host’s hyperinflammatory response to infection, resulting in acute respiratory distress and multi-organ failure.10Ramos-Casals M. Brito-Zerón P. Mariette X. Systemic and organ-specific immune-related manifestations of COVID-19.Nat. Rev. Rheumatol. 2021; 17: 315-332https://doi.org/10.1038/s41584-021-00608-zCrossref PubMed Scopus (69) Google Scholar Although a few immunomodulatory therapies have led to an increase in survival in COVID-19 patients,2National Institutes of HealthCoronavirus Disease 2019 (COVID-19) Treatment Guidelines.https://www.covid19treatmentguidelines.nih.gov/Date: 2021Google Scholar they are ineffective in a large subset of patients (Table 1). Moreover, the administration of these therapeutics in relation to disease progression must be timed correctly to avoid negative effects on patient outcome.3Griffin D.O. Brennan-Rieder D. Ngo B. Kory P. Confalonieri M. Shapiro L. Iglesias J. Dube M. Nanda N. In G.K. et al.The Importance of Understanding the Stages of COVID-19 in Treatment and Trials.AIDS Rev. 2021; 23: 40-47https://doi.org/10.24875/AIDSRev.200001261Crossref PubMed Scopus (28) Google Scholar Thus, one major remaining challenge is to identify additional host-directed therapies for the treatment of severe COVID-19. Unfortunately, a clear path forward for host-directed therapies has not emerged from either years of research on acute respiratory distress syndrome and multi-organ failure or many clinical trials evaluating potential therapeutics.11Huppert L.A. Matthay M.A. Ware L.B. Pathogenesis of Acute Respiratory Distress Syndrome.Semin. Respir. Crit. Care Med. 2019; 40: 31-39https://doi.org/10.1055/s-0039-1683996Crossref PubMed Scopus (134) Google Scholar We must use this pandemic, and the unprecedented amount of patient information acquired so far, to advance our understanding—and treatment—of viral lower respiratory tract disease. Never before have researchers had access to such a large data and clinical sample set derived from patients and animal models that can be used as the basis for this research. Additionally, technological innovations like single-cell transcriptomics and the use of respiratory tract organoids are tools that have not been applied to this problem before but could lead to significant discoveries. Combining these tools with the data and samples available from COVID-19 patients will result in a mechanistic understanding of the cascade of specific cellular processes underlying severe disease, as well as biomarkers indicating which phase of the cascade patients are in. Individual components of this cascade form novel targets for time-resolved host-directed therapies. This will require large investments in terms of research funding, but the added benefit of this investment would be that it will likely result in effective treatments for pneumonia and acute respiratory distress from causes other than SARS-CoV-2 infection as well. Research also needs to focus on the effects of COVID-19 in convalescent patients, as long-lasting effects of COVID-19 are common. While this issue may have been overlooked early on, when the focus was on finding treatments for acute disease, the enormous number of convalescents with persisting problems is now too urgent to ignore. One obvious area of study is lung regeneration, since many patients who recover from severe COVID-19 will have long-lasting damage to their lungs such as pulmonary fibrosis that may negatively impact recovered patients’ quality of life.12Spagnolo P. Balestro E. Aliberti S. Cocconcelli E. Biondini D. Casa G.D. Sverzellati N. Maher T.M. Pulmonary fibrosis secondary to COVID-19: a call to arms?.Lancet Respir. Med. 2020; 8: 750-752https://doi.org/10.1016/S2213-2600(20)30222-8Abstract Full Text Full Text PDF PubMed Scopus (262) Google Scholar Another area that requires additional clinical and mechanistic research is post-acute COVID-19 syndrome (PACS; also known as “long COVID”). Many recovered COVID-19 patients experience long-lasting effects of COVID-19 infection with problems arising from many different organ systems besides the lung, regardless of the severity of the acute stage of SARS-CoV-2 infection and without evidence of continued virus replication.13Nalbandian A. Sehgal K. Gupta A. Madhavan M.V. McGroder C. Stevens J.S. Cook J.R. Nordvig A.S. Shalev D. Sehrawat T.S. et al.Post-acute COVID-19 syndrome.Nat. Med. 2021; 27: PubMed Scopus Google Scholar clinical research on patients with is to this syndrome better and effective therapeutics to treat and from all medical and their focus to COVID-19 in the past resulting in rapid progress in the and treatment of COVID-19 and a significantly reduced disease on the of the However, it is clear from the that we need additional antiviral therapies in our COVID-19 that pandemic response and pandemic are high on a of the antiviral therapy research and development needs to be to identify that the clinical development of antiviral therapies. For example, treatments like and developed years before the emergence of SARS-CoV-2 as potential antiviral therapies for and it has years since the emergence of SARS-CoV-2 for these to receive FDA EUA for COVID-19. this so and could this have been all the treatments use a mechanism of action in antiviral therapies (i.e., nucleotide protease monoclonal novel therapeutics like have for direct-acting antivirals against a specific virus once the of an is and the from the can we ensure continued development of antiviral therapies a reduced in the infection they would Although obvious are the lack of a long-term research and clinical trial a could result in new into additional the progression of new antiviral therapies into the and to reduce or as important as the therapeutics that are the that trials are in so once a it into clinical trials it is clear it had a clinical benefit in patients. during preclinical development are not but it is to that many more potential antiviral therapies for COVID-19 in the preclinical development phase than we much could be from which to be ineffective during preclinical they ineffective which used to the in preclinical and which used to them A of that ineffective during preclinical development this information could be a to the preclinical development of antiviral therapies since it would us to define with the value for the efficacy of potential antiviral therapies. with low value could be with more One important in this is the use of for the of direct-acting antivirals. well in these but it was later shown not to be effective in more and animal Thus, the could have been if a better had been C. L. J. S. et preclinical evidence not use of in COVID-19 2020; PubMed Scopus Google Scholar A more preclinical development would likely greatly reduce the number of potential antiviral therapies that it through the unknown viral have been in recent A. the virus 2021; PubMed Scopus Google Scholar new of virus known to have In is an for antivirals that are effective against one or even against from different However, we also need to in research that will help us which of these form a pandemic We can apply the lessons from the COVID-19 pandemic to develop direct-acting antivirals against these to the antivirals. can we to better in the We would like to for help with and and for the and are by the Research of The of this not the or of the of Health and Human the of or by the and and The no Two years of A of data and many remaining et years since the Health COVID-19 a global pandemic on of us would the past SARS-CoV-2 has a people, have and more are now with the long-term impact of the virus and the The of infection to our and the global has made in understanding the underlying of the virus, the host immune to the virus, as well as COVID-19 PDF Open

Topics & Concepts

Coronavirus disease 2019 (COVID-19)2019-20 coronavirus outbreakSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)VirologyMedicinePandemicIntensive care medicineInfectious disease (medical specialty)Internal medicineDiseaseOutbreakLong-Term Effects of COVID-19COVID-19 Clinical Research StudiesCOVID-19 and Mental Health
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