UW-Madison: COVID-19 subvariants compared

MADISON – In a study published in Nature on May 16, a research team led by University of Wisconsin–Madison virologist Yoshihiro Kawaoka and colleagues in Japan show that the BA.2 subvariant of omicron is similar to BA.1 in both the severity of illness it causes and in its ability to cause infection.

Omicron is now the dominant version of the virus that causes COVID-19 worldwide and BA.2 is the dominant subvariant in nearly seven dozen countries.

The peer-reviewed findings contrast with a recent study from another research team that relied on recombinant virus bearing spike proteins from BA.1 and BA.2.

“That study indicated BA.2 may be more pathogenic than BA.1,” says Kawaoka, professor of pathobiological sciences at the UW School of Veterinary Medicine and a professor at the University of Tokyo. “But when we used authentic virus, we found that BA.2 is not more pathogenic.”

Kawaoka and Veterinary Medicine research associate professor and co-author Peter Halfmann, say their findings suggest that other parts of the omicron virus may lessen, or attenuate, the pathogenicity of its spike proteins alone.

Relying on rodent models for the disease, researchers and their collaborators tested viruses isolated from human samples. Both subvariants of omicron caused less severe illness compared to earlier strains, including delta and the original strain of the virus that emerged in late 2019.

The study team also found that existing therapeutic monoclonal antibodies and antiviral drugs remain effective against BA.2.

However, plasma from vaccinated individuals and from people who recovered from earlier infections was less effective at neutralizing both subvariants of omicron relative to earlier virus strains, and plasma from people infected with BA.1 was less effective at neutralizing BA.2.

But the researchers also found that plasma from people who were vaccinated and then infected with BA.1 or earlier variants exhibited a smaller decrease in effectiveness against BA.2.

“If you’re vaccinated and then infected, you’re protected against many different variants,” says Kawaoka, especially compared to prior infection alone or vaccination alone.

The researchers are now testing the newest sub-variants of omicron, including BA.2.12.1, which recently began spreading quickly in New York state.

The study was supported by the National Center for Global Health and Medicine, the National Institutes of Health, the Japan Program for Infectious Diseases Research and Infrastructure, the Japan Agency for Medical Research and Development, the National Institutes of Allergy and Infectious Diseases, the Center for Research on Influenza Pathogenesis and Transmission, the Collaborative Influenza Vaccine Innovation Center, and the Japanese Ministry of Health, Labor and Welfare.