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Good news: Mild COVID-19 induces lasting antibody protection

People who have had mild illness develop antibody-producing cells that can last lifetime

by Tamara BhandariMay 24, 2021

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Editor’s note, Dec. 22, 2021: Since May 24, 2021, when this study was published, epidemiological data has shown that people who have recovered from COVID-19 can be reinfected with the virus and become sick again. This seems to be especially true with the delta and omicron variants. This study found that antibodies persist long after an infection, and those findings have been supported by subsequent research. But having antibodies does not automatically translate into indefinite protection from illness, particularly as new variants arise. Washington University recommends that everyone eligible for a COVID-19 vaccine get it and a booster – even if previously infected. Vaccination is the best protection against COVID-19.

Months after recovering from mild cases of COVID-19, people still have immune cells in their body pumping out antibodies against the virus that causes COVID-19, according to a study from researchers at Washington University School of Medicine in St. Louis. Such cells could persist for a lifetime, churning out antibodies all the while.

The findings, published May 24 in the journal Nature, suggest that mild cases of COVID-19 leave those infected with lasting antibody protection and that repeated bouts of illness are likely to be uncommon.

“Last fall, there were reports that antibodies wane quickly after infection with the virus that causes COVID-19, and mainstream media interpreted that to mean that immunity was not long-lived,” said senior author Ali Ellebedy, PhD, an associate professor of pathology & immunology, of medicine and of molecular microbiology. “But that’s a misinterpretation of the data. It’s normal for antibody levels to go down after acute infection, but they don’t go down to zero; they plateau. Here, we found antibody-producing cells in people 11 months after first symptoms. These cells will live and produce antibodies for the rest of people’s lives. That’s strong evidence for long-lasting immunity.”

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During a viral infection, antibody-producing immune cells rapidly multiply and circulate in the blood, driving antibody levels sky-high. Once the infection is resolved, most such cells die off, and blood antibody levels drop. A small population of antibody-producing cells, called long-lived plasma cells, migrate to the bone marrow and settle in, where they continually secrete low levels of antibodies into the bloodstream to help guard against another encounter with the virus.

The key to figuring out whether COVID-19 leads to long-lasting antibody protection, Ellebedy realized, lies in the bone marrow. To find out whether those who have recovered from mild cases of COVID-19 harbor long-lived plasma cells that produce antibodies specifically targeted to SARS-CoV-2, the virus that causes COVID-19, Ellebedy teamed up with co-author Iskra Pusic, MD, an associate professor of medicine. Ellebedy already was working with co-authors Rachel Presti, MD, PhD, an associate professor of medicine, and Jane O’Halloran, MD, PhD, an assistant professor of medicine, on a project to track antibody levels in blood samples from COVID-19 survivors.

The team already had enrolled 77 participants who were giving blood samples at three-month intervals starting about a month after initial infection. Most participants had had mild cases of COVID-19; only six had been hospitalized.

With Pusic’s help, Ellebedy and colleagues obtained bone marrow from 18 of the participants seven or eight months after their initial infections. Five of them came back four months later and provided a second bone marrow sample. An additional person who had recovered from COVID-19 gave bone marrow separately. For comparison, the scientists also obtained bone marrow from 11 people who had never had COVID-19.

As expected, antibody levels in the blood of the COVID-19 participants dropped quickly in the first few months after infection and then mostly leveled off, with some antibodies detectable even 11 months after infection. Further, 15 of the 19 bone marrow samples from people who had had COVID-19 contained antibody-producing cells specifically targeting the virus that causes COVID-19. Such cells could still be found four months later in the five people who came back to provide a second bone-marrow sample. None of the 11 people who had never had COVID-19 had such antibody-producing cells in their bone marrow.

“People with mild cases of COVID-19 clear the virus from their bodies two to three weeks after infection, so there would be no virus driving an active immune response seven or 11 months after infection,” Ellebedy said. “These cells are not dividing. They are quiescent, just sitting in the bone marrow and secreting antibodies. They have been doing that ever since the infection resolved, and they will continue doing that indefinitely.”

People who were infected and never had symptoms also may be left with long-lasting immunity, the researchers speculated. But it’s yet to be investigated whether those who endured more severe infection would be protected against a future bout of disease, they said.

“It could go either way,” said first author Jackson Turner, PhD, an instructor in pathology & immunology. “Inflammation plays a major role in severe COVID-19, and too much inflammation can lead to defective immune responses. But on the other hand, the reason why people get really sick is often because they have a lot of virus in their bodies, and having a lot of virus around can lead to a good immune response. So it’s not clear. We need to replicate the study in people with moderate to severe infections to understand whether they are likely to be protected from reinfection.”

Ellebedy and colleagues now are studying whether vaccination also induces long-lived antibody-producing cells.

Turner JS, Kim W, Kalaidina E, Goss CW, Rauseo AM, Schmitz AJ, Hansen L, Haile A, Klebert MK, Pusic I, O’Halloran JA, Presti RM, Ellebedy AH. SARS-CoV-2 infection induces long-lived bone marrow plasma cells in humans. Nature. May 24, 2021. DOI: 10.1038/s41586-021-03647-4

This study was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health (NIH), grant numbers U01AI1419901, U01AI150747 and 5T32CA009547 and contract numbers HHSN272201400006C, HHSN272201400008C and 75N93019C00051; the Norwegian Research Council, grant number 271160; and the University of Oslo’s National Graduate School in Infection Biology and Antimicrobials, grant number 249062. This study utilized samples obtained from the Washington University School of Medicine’s COVID-19 biorepository supported by the NIH/National Center for Advancing Translational Sciences, grant number UL1 TR002345.

Washington University School of Medicine’s 1,500 faculty physicians also are the medical staff of Barnes-Jewish and St. Louis Children’s 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 Children’s hospitals, the School of Medicine is linked to BJC HealthCare.

Tamara covers infectious diseases, molecular microbiology, neurology, neuroscience, surgery, the Institute for Informatics, the Division of Physician-Scientists and the MSTP program. She holds a double bachelor's degree in molecular biophysics & biochemistry and in sociology from Yale University, a master's in public health from the University of California, Berkeley, and a PhD in biomedical science from the University of California, San Diego. She joined WashU Medicine Marketing & Communications in 2016. She has received three Robert G. Fenley writing awards from the American Association of Medical Colleges: a bronze in 2020 for "Mind’s quality control center found in long-ignored brain area," a silver in 2022 for "Mice with hallucination-like behaviors reveal insight into psychotic illness," and a bronze in 2023 for "Race of people given Alzheimer’s blood tests may affect interpretation of results." Since January of 2024, Tamara has been writing under the name Tamara Schneider.