The answer is yes. Omicron is more infectious than other variants of COVID-19, but individuals had higher levels of effective antibodies to the variant.
Virus-like particles were used to identify which mutations of the Omicron SARS-CoV-2 virus infect cells and are most effective at escaping antibodies, as suggested by a report.As the Omicron variant of SARS-CoV-2 (COVID-19) spread rapidly around the world earlier this year, researchers from the Gladstone Institutes, UC Berkeley and the Innovative Genomics Institute used virus-like particles to identify which parts of the virus were responsible for its increased infectivity and spread.
‘Antibodies created against earlier variants of the COVID-19 virus were much less effective against Omicron, but showed that a recent surge in individuals had higher levels of effective antibodies.’
They also confirmed that antibodies created against earlier variants of the COVID-19 virus were much less effective against Omicron, but showed that a recent surge in individuals had higher levels of effective antibodies. The research is published in the journal Proceedings of the National Academy of Sciences of the United States of America.“The virus-like particle system lets us rapidly query new variants and get insight into whether their infectivity in cell culture is changed,” says Melanie Ott, MD, PhD, director of the Gladstone Institute of Virology and a senior author of the new study. “In the case of Omicron, it allowed us to get a much better handle on how, at a molecular level, this variant is different from others.”
“This approach is incredibly useful for quickly studying the effectiveness of prior antibodies and vaccines on a newly emerging viral strain,” says the study’s other senior author Jennifer Doudna, PhD, senior investigator at Gladstone, professor at UC Berkeley, founder of the Innovative Genomics Institute, and investigator of the Howard Hughes Medical Institute.
Omicron Variant of COVID-19 and its Research
Epidemiological data has suggested that the Omicron variant of SARS-CoV-2, first detected in November 2021 in South Africa, spreads between people more easily than the original strain of the virus. Compared to other variants, it has also caused more breakthrough infections — especially in people previously infected with or fully vaccinated against COVID-19.Early in 2021, Ott’s and Doudna’s research groups developed virus-like particles to study the SARS-CoV-2 virus. These particles are composed of the membrane, envelope, nucleocapsid, and spike proteins that make up the viral particle’s structure. However, virus-like particles lack the virus’s genome, so they cannot infect people and are therefore safer to work with than live virus. Scientists can also engineer new virus-like particles much faster than they can grow new variants of the live virus to study.
In their previous work, the researchers showed that the efficiency of virus-like particle assembly was related to the infectivity of the corresponding full, live virus. For instance, if a virus-like particle carrying a certain mutation was more efficient at forming viral particles, a copy of the live virus with the same mutation was also more infectious based on cell culture experiments.
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Omicron mutations in the spike protein, they discovered, made virus-like particles twice as infectious as those with the ancestral spike protein. And virus-like particles carrying Omicron’s mutations in the nucleocapsid protein were 30 times more infectious than the ancestral SARS-CoV-2.
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When the team made virus-like particles carrying Omicron mutations in the membrane or envelope proteins, they found that the particles were no more infectious than the ancestral virus-like particles; in fact, they were only about half as infectious as some other variants.
“Omicron has a lot of mutations, and our findings tell us that some of these mutations are actually harmful for the virus,” says Abdullah Syed, PhD, first author of the study and a postdoctoral fellow in Doudna’s lab at Gladstone. “But it also means that it could be possible for Omicron to evolve to be even more infectious if those brakes are lifted.”
How an Omicron Variant Escapes Antibodies?
The researchers also tested the ability of antibodies to neutralize the SARS-CoV-2-like particles. They collaborated with the Innovation Team at Curative, which established a comprehensive serum biobank by administering over 2 million vaccinations across the USA.The team used serum of 38 people who had been vaccinated against COVID-19 or were unvaccinated but had recovered from the virus, as well as 8 people who had received a booster vaccine within the previous 3 weeks. Then, the researchers exposed the virus-like particles they had created to these serum samples to test their ability to neutralize the particles.
Sera from people vaccinated with the Pfizer/BioNTech or Moderna vaccine within the previous 4 to 6 weeks showed high levels of neutralization against virus-like particles of ancestral SARS-CoV-2, but levels of neutralization were 3 times lower for particles of the Delta variant, and about 15 times lower for Omicron virus-like particles. People vaccinated with the Johnson & Johnson vaccine or who recovered from COVID-19 showed low levels of neutralization against the ancestral virus-like particles and little difference was apparent for the Delta and Omicron variants.
In addition, the researchers showed that within 2 to 3 weeks of receiving a third dose of Pfizer/BioNTech, all 8 boosted individuals in the study had detectable levels of antibodies capable of neutralizing all SARS-CoV-2 variants, including Omicron. However, levels of antibodies against Omicron were still 8 times lower than antibodies against the ancestral virus.
“Our findings support the idea that Omicron is much more capable of escaping our vaccine-induced immunity than previous strains of SARS-CoV-2,” says Ott. “It also underscores that booster shots from the mRNA vaccines seem to provide some degree of additional protection, even against Omicron.”
Additionally, when the team tested the monoclonal antibodies casirivimab and imdevimab (known commercially as REGEN-Cov), they found that the drugs showed high levels of neutralization against ancestral and Delta variants of SARS-CoV-2, but no detectable neutralization at all against the Omicron-like particles.
“We’re certainly not at a point where we fully understand this variant, but our data add to the growing evidence that it seems to be very good at infecting and very good at escaping antibodies,” says Syed.
Source-Eurekalert