From the Journals

Common cold could protect against COVID-19, study says


 

People who build up high levels of immune cells from coronaviruses that cause the common cold could have some protection against COVID-19, according to a small study published Jan. 10 in Nature Communications.

Previous studies have shown that T cells created from other coronaviruses can recognize SARS-CoV-2, the virus that causes COVID-19. In the new study, researchers at Imperial College London found that the presence of these T cells at the time of COVID-19 exposure could reduce the chance of getting infected.

The findings could provide a blueprint for a second-generation, universal vaccine to prevent infection from COVID-19 variants, including Omicron and ones that crop up later.

“Being exposed to SARS-CoV-2 virus doesn’t always result in infection, and we’ve been keen to understand why,” Rhia Kundu, PhD, the lead study author from Imperial’s National Heart and Lung Institute, said in a statement.

People with higher levels of T cells from the common cold were less likely to become infected with COVID-19, the researchers found.

“While this is an important discovery, it is only one form of protection, and I would stress that no one should rely on this alone,” Dr. Kundu said. “Instead, the best way to protect yourself against COVID-19 is to be fully vaccinated, including getting your booster dose.”

For the study, Dr. Kundu and colleagues analyzed blood samples from 52 people who lived with someone with confirmed COVID-19 in September 2020. Among the 26 people who didn’t contract COVID-19, there were “significantly higher levels” of preexisting T cells from common cold coronaviruses, as compared with the 26 people who did become infected.

The T cells researched in the study are considered “cross-reactive” and can recognize the proteins of SARS-CoV-2. They offer protection by targeting proteins inside the SARS-CoV-2 virus, rather than the spike proteins on the surface that allow the virus to invade cells.

The current COVID-19 vaccines target the spike proteins, which are more likely to mutate than internal proteins, the researchers wrote. The Omicron variant, for instance, has numerous mutations on spike proteins that may allow it to evade vaccines.

The data suggest that the next step of COVID-19 vaccine development could focus on internal proteins, the researchers said, which could provide lasting protection because T-cell responses persist longer than antibody responses that fade within a few months of vaccination.

“New vaccines that include these conserved, internal proteins would therefore induce broadly protective T-cell responses that should protect against current and future SARS-CoV-2 variants,” Ajit Lalvani, MD, the senior study author and director of Imperial’s respiratory infections health protection research unit, said in the statement.

But more research is needed, the authors said, noting that the study had a small sample size and lacked ethnic diversity, which puts limits on the research.

A version of this article first appeared on WebMD.com

Recommended Reading

Mayo Clinic fires 700 employees for refusing COVID vaccine
MDedge Internal Medicine
As pandemic regs expire, states get tougher on telehealth: report
MDedge Internal Medicine
COVID-19 linked to increased diabetes risk in youth
MDedge Internal Medicine
Lack of high school education vaccine hesitancy predictor
MDedge Internal Medicine
At-risk Americans become eligible for fourth COVID shot this week
MDedge Internal Medicine
COVID-vaccine myocarditis: Rare, mild, and usually in young men
MDedge Internal Medicine
What if the National Guard Can’t Help?
MDedge Internal Medicine
U.S. reports record-breaking 1.35 million new COVID cases in a day
MDedge Internal Medicine
Physicians react: Should docs lose their licenses for spreading false COVID information?
MDedge Internal Medicine
Ranking seven COVID-19 antigen tests by ease of use: Report
MDedge Internal Medicine