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Researchers from the Goethe-University in Frankfurt am Main, Germany, and the University of Kent in Canterbury, UK, have identified combination therapies for COVID-19 that are highly effective in cell culture experiments and that may reduce the formation of novel variants.
COVID-19 is anticipated to keep causing regular outbreak waves for the foreseeable future. The recent COVID-19 waves have caused fewer hospitalisations and deaths than the initial ones, which is largely due to the immunity provided by vaccines. However, many people have defects in their immune systems and cannot effectively protect themselves from COVID-19 by vaccination. Such individuals depend on effective antiviral therapies when they are infected.
Moreover, resistance formation to antiviral drugs is known to happen quickly in viruses and has, for example, caused major problems with the treatment of HIV. However, more effective combination therapies can reduce or even prevent resistance formation.
The first resistance mutations have already been detected in samples of SARS-CoV-2, the coronavirus that causes COVID-19. Novel and resistant variants seem to predominantly emerge in individuals with immune defects, who suffer from long-term infections because they cannot effectively clear the virus. Thus, effective combination therapies are also needed that suppress the formation of new, resistant SARS-CoV-2 variants.
Currently, there are three approved antiviral drugs for the treatment of COVID-19: remdesivir, molnupiravir, and nirmatrelvir (the active agent in paxlovid). Moreover, aprotinin is an approved drug, whose anti-SARS-CoV-2 activity was discovered by the same research team, and it was recently shown to be beneficial in COVID-19 patients.
To find more effective COVID-19 therapies, an international team led by Professor Jindrich Cinatl (Institute of Medical Virology, Goethe-University), Professor Martin Michaelis, and Professor Mark Wass (both School of Biosciences, University of Kent)tested the sensitivity of different SARS-CoV-2 Omicron and Delta viruses to combinations of the four antiviral drugs with betaferon, which belongs to the interferons, an additional class of antiviral drugs that are also naturally produced in the body and protect it from virus infections.
The findings revealed that interferon combination with molnupiravir, nirmatrelvir, and aprotinin were much more effective than interferon combinations with remdesivir. This may explain, why remdesivir/ interferon combinations have so far shown limited improvement compared to remdesivir alone. Based on the current findings, interferon combinations with the other three drugs are much more promising and should be tested in the clinics.
Professor Jindrich Cinatl (Goethe-University and Dr Petra Joh Research Institute) added: “If these findings are confirmed in patients, I hope that more effective therapies will help us to reduce the formation of novel dangerous COVID-19 variants.”
Professor Martin Michaelis, University of Kent, said: “These are exciting findings that will hopefully help to improve the treatment of vulnerable COVID-19 patients and to avoid the formation of resistant viruses as much as possible.”
The study Synergism of interferon-beta with antiviral drugs against SARS-CoV-2 variants (Denisa Bojkova, Tamara Rothenburger, Joshua D Kandler, Sandra Ciesek, Jindrich Cinatl - Goethe-University Frankfurt; Richard Stack, Mark N Wass, Martin Michaelis - University of Kent) has been published in the Journal of Infection.
Prof. Jindrich Cinatl
Forschungsgruppenleiter
Institut für Medizinische Virologie
Goethe-Universität
+49 69 / 6301-6409
cinatl@em.uni-frankfurt.de
Denisa Bojkova, Tamara Rothenburger, Joshua D Kandler, Sandra Ciesek, Jindrich Cinatl - Goethe-University Frankfurt; Richard Stack, Mark N Wass, Martin Michaelis - University of Kent): Synergism of interferon-beta with antiviral drugs against SARS-CoV-2 variant, in: Journal of Infection. https://doi.org/10.1016/j.jinf.2022.07.023
https://www.kgu.de/einrichtungen/institute/zentrum-der-hygiene/medizinische-viro...
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