COVID-19 dual-antibody therapies effective against variants in animal study Washington University School of Medicine in St. Louis – Washington…

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Combination therapies appear to prevent emergence of drug resistance

MD/PhD student Rita Chen (left) and Brett Case, PhD, a postdoctoral researcher, prepare to work with SARS-CoV-2, the virus that causes COVID-19, under strict biosafety conditions. Chen, Case and MD/PhD student Emma Winkler co-led a study with virologist and immunologist Michael S. Diamond, MD, PhD, at Washington University School of Medicine in St. Louis, to assess how well antibody-based drugs for COVID-19 perform against a range of virus variants.

COVID-19 therapies made from antibodies often are given to patients who are at high risk of severe illness and hospitalization. However, there have been nagging questions about whether such antibody therapies retain their effectiveness as worrisome new virus variants arise.

New research at Washington University School of Medicine in St. Louis suggests that many, but not all, therapies made from combinations of two antibodies are effective against a wide range of variants of the virus. Further, combination therapies appear to prevent the emergence of drug resistance.

The study, in mice and hamsters, tested all single and combination antibody-based therapies authorized for emergency use by the Food and Drug Administration (FDA), or that are being evaluated in late-stage clinical trials, against a panel of emerging international and U.S. variants of SARS-CoV-2, the virus that causes COVID-19.

The findings, published June 21 in the journal Nature, suggest that COVID-19 drugs made of two antibodies often retain potency as a therapy against variants even when in vitro studies experiments conducted in a dish indicate that one of the two antibodies has lost some or all ability to neutralize the variant.

We knew how these antibodies were behaving in vitro, but we dont give people drugs based solely on cell culture data, said senior authorMichael S. Diamond, MD, PhD, the Herbert S. Gasser Professor of Medicine. When we looked in animals, there were some surprises. Some of the combinations performed better than we thought they would, based on in vitro data. And there was no drug resistance to combinations whatsoever, across all of the different variants. Were going to have to continue to monitor the effectiveness of antibody therapy as more variants arise, but combination therapy is likely needed for treating infections with this virus as more variants emerge.

So-called monoclonal antibodies mimic those generated by the body to fight off the virus that causes COVID-19. Administration of antibody therapies bypasses the bodys slower and sometimes less effective process of making its own antibodies. At the time this study began, there were two dual-antibody combination therapies and a single antibody therapy authorized by the FDA for emergency use. The FDA withdrew authorization for the single antibody therapy, bamlanivimab, in April on the grounds that it was not effective against the variants circulating at that time. In May, the FDA authorized the single antibody sotrovimab as a treatment for COVID-19.

In all, the researchers evaluated antibodies corresponding to the FDA-authorized ones made by Eli Lilly and Co., Regeneron and Vir Biotechnology/GlaxoSmithKline, as well as the antibodies currently under development by AbbVie, Vir and AstraZeneca that are in clinical trials.

The researchers led by co-first authors Rita E. Chen, an MD/PhD student, Emma S. Winkler, an MD/PhD student, and Brett Case, PhD, a postdoctoral researcher tested the antibodies against a panel of virus variants containing key mutations in their spike genes. The SARS-CoV-2 virus uses spike protein to invade cells. All monoclonal antibody-based COVID-19 therapies work by interfering with the interaction between spike protein and cells.

The panel included mutations found in three of the four variants that have been designated variants of concern by the World Health Organization Alpha (first identified in the United Kingdom), Beta (South Africa) and Gamma (Brazil) as well as an emerging variant from India similar to the Delta variant of concern. They also tested variants from New York and California. The researchers used a mix of virus samples originally obtained from people with COVID-19 and laboratory strains genetically engineered to contain key mutations.

The researchers evaluated the antibodies in hamsters and two strains of mice. The researchers first gave the animals antibodies singly or in the same combinations in which they are given to treat patients a day before infecting them with one of the virus variants. The researchers monitored the animals weight for six days and then measured the amount of virus in their noses, lungs and other parts of the body.

Although some single antibodies showed reduced or no ability to neutralize virus variants in a dish, low doses of most of the antibody combinations protected against disease caused by many of the variants. The researchers sequenced viral samples from the animals and found no evidence of drug resistance in viruses from any of the animals that had been treated with combination therapies.

Dual therapy seemed to prevent the emergence of resistant viruses, said co-author Jacco Boon, PhD, an associate professor of medicine, of molecular microbiology and of pathology & immunology. Resistance arose with some of the monotherapies, but never with combination therapy.

Since antibody-based COVID-19 therapies primarily are used to treat people who already are infected, the researchers also evaluated how well the antibody combinations performed when given after infection with the Beta variant. The Beta variant was chosen because it has been shown to be most likely to escape neutralization in laboratory-based experiments and has the most resistance to COVID-19 vaccines. The antibody cocktails corresponding to those from AstraZeneca, Regeneron and Vir were all effective at reducing disease caused by the Gamma variant; the one from AbbVie only was partially protective, and the one from Lilly showed no efficacy at all.

Its going to be useful going forward to understand how these monoclonal antibodies are going to behave as variants continue to emerge, said Diamond, who also is a professor of molecular microbiology and of pathology & immunology. We need to think about and generate combinations of antibodies to preserve our ability to treat this disease. And well need to monitor for resistance although, in my opinion, the use of specific combinations will make this less of an issue.

Chen RE, Winkler ES, Case JB, Aziati ID, Bricker TL, Joshi A, Darling T, Ying B, Errico JM, Shrihari S, VanBlargan LA, Xie X, Gilchuk P, Zost SJ, Droit L, Liu Z, Stumpf S, Wang D, Handley SA, Stine WB, Shi P-Y, Davis-Gardner ME, Suthar MS, Knight MG, Andino R, Chiu CY, Ellebedy AH, Fremont DH, Whelan SPJ, Crowe JE, Purcell L, Corti D, Boon ACM, Diamond MS. In vivo monoclonal antibody efficacy against SARS-CoV-2 variant strains. Nature. June 21, 2021. DOI: 10.1038/s41586-021-03720-y

This study was supported by the National Institutes of Health (NIH), grant and contract numbers R01 AI157155, U01 AI151810, U01 AI141990, R01 AI118938, 75N93019C00051, HHSN272201400006C, HHSN272201400008C, and HHSN75N93019C00074; the Childrens Discovery Institute, grant number PDII2018702; the Defense Advanced Research Project Agency, grant number HR0011-18-2-0001; the Dolly Parton COVID-19 Research Fund at Vanderbilt University; Fast Grants; the Mercatus Center at George Mason University; and the Future Insight Prize from Merck KGaA.

Washington University School of Medicines 1,500 faculty physicians also are the medical staff of Barnes-Jewish and St. Louis Childrens hospitals. The School of Medicine is a leader in medical research, teaching and patient care, consistently ranking among the top medical schools in the nation by U.S. News & World Report. Through its affiliations with Barnes-Jewish and St. Louis Childrens hospitals, the School of Medicine is linked to BJC HealthCare.

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COVID-19 dual-antibody therapies effective against variants in animal study Washington University School of Medicine in St. Louis - Washington...