Rrsearchers in Germany have found that the Omicron sub-lineage BQ.1.1, currently on the rise worldwide, is resistant to all the approved antibody therapies used to treat individuals at risk for severe Covid-19 disease.

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As a result of an infection with the SARS coronavirus-2 (SARS-CoV-2) or a COVID-19 vaccination, an immune response is triggered that entails the formation of neutralizing antibodies that help protect against (re)infection with SARS-CoV-2 or a severe course of the disease.

Neutralizing antibodies protect by binding to the viral spike protein, which prevents the virus from entering cells. However, due to mutations in the spike protein, some SARS-CoV-2 variants, particularly the Omicron variant, evade neutralizing antibodies and cause symptomatic infections even in vaccinated or convalescent persons.

This is referred to as immune evasion and threatens high-risk groups such as the elderly and people with weakened immune systems, for example, due to illness or medication. They often fail to develop an immune response sufficient for protection from severe disease, even after full vaccination.

To protect high-risk patients, biotechnologically produced antibodies are administered as a preventive measure or as an early therapy upon confirmed SARS-CoV-2 infection. Mutations in the spike protein of different SARS-CoV-2 variants confer resistance to individual antibody therapies. Therefore, it is important to regularly monitor whether therapeutic antibodies continue to be effective against currently circulating viral variants.

A team of researchers from the Infection Biology Unit at the German Primate Center – Leibniz Institute for Primate Research and the Division of Molecular Immunology at the Friedrich-Alexander-University Erlangen-Nürnberg has investigated how efficiently approved antibody therapies inhibit the currently circulating Omicron subvariants.

The researchers found that the Omicron subvariant BQ.1.1, which is on the rise worldwide, is resistant to all available antibody therapies.

“For our studies, we mixed non-propagating viral particles carrying the spike protein of selected viral variants with different dilutions of the antibodies to be tested and subsequently measured the amount of antibody needed to inhibit infection of cell cultures. In total, we tested twelve individual antibodies, six of which are approved for clinical use in Europe, and four antibody cocktails,” explains Prerna Arora, lead author of the study.

The researchers found that the Omicron subvariant BQ.1.1 could not be neutralized by either individual antibodies or antibody cocktails. In contrast, the currently predominant Omicron subvariant BA.5 was still neutralized by one approved antibody and two approved antibody cocktails.

“With high-risk patients in mind, we are very concerned about the Omicron subvariant BQ.1.1 being resistant to all approved antibody therapies. Particularly in regions where BQ.1.1 is widespread, physicians should not rely on antibody therapies alone when treating infected high-risk patients, but should also consider administering other drugs such as paxlovid or molnupiravir,” comments study leader Markus Hoffmann.

The finding that the Omicron subvariant BQ.1.1 is already resistant to a new antibody therapy that is about to be approved in the US highlights the importance of developing new antibody therapies against COVID-19.

“The ever-increasing development of antibody resistance of SARS-CoV-2 variants calls for the development of new antibody therapies that are specifically targeted to currently circulating and future viral variants. Ideally, they should target regions in the spike protein that have little potential for escape mutations,” concludes Stefan Pöhlmann, head of Infection Biology Unit at the German Primate Center – Leibniz Institute for Primate Research.