Scientists see signs of lasting immunity to COVID-19, even after mild infections
By Katherine J. Wu
To the immune system, not all germs are equally memorable. But our body’s cells seem to be seriously studying up on the coronavirus.
Scientists who have been monitoring immune responses to the virus are now starting to see encouraging signs of strong, lasting immunity, even in people who developed only mild symptoms of COVID-19, a flurry of new studies suggests. Disease-fighting antibodies, as well as immune cells called B cells and T cells that are capable of recognizing the virus, appear to persist months after infections have resolved — an encouraging echo of the body’s enduring response to other viruses.
“Things are really working as they’re supposed to,” said Deepta Bhattacharya, an immunologist at the University of Arizona and an author on one of the new studies, which has not yet been peer-reviewed.
Although researchers cannot forecast how long these immune responses will last, many experts consider the data a welcome indication that the body’s most studious cells are doing their job — and will have a good chance of fending off the coronavirus, faster and more fervently than before, if exposed to it again.
“This is exactly what you would hope for,” said Marion Pepper, an immunologist at the University of Washington and an author on another of the new studies, which is currently under review at the journal Nature. “All the pieces are there to have a totally protective immune response.”
Protection against reinfection cannot be fully confirmed until there is proof that most people who encounter the virus a second time are actually able to keep it at bay, Pepper said. But the findings could help quell recent concerns over the virus’s ability to dupe the immune system into amnesia, leaving people vulnerable to repeat bouts of disease.
Researchers have yet to find unambiguous evidence that coronavirus reinfections are occurring, especially within the few months that the virus has been rippling through the human population. The prospect of immune memory “helps to explain that,” Pepper said.
In discussions about immune responses to the coronavirus, much of the conversation has focused on antibodies — Y-shaped proteins that can latch onto the surfaces of pathogens and block them from infecting cells. But antibodies represent just one wing of a complex and coordinated squadron of immune soldiers, each with its own unique modes of attack. Viruses that have already invaded cells, for instance, are cloaked from antibodies, but are still vulnerable to killer T cells, which force infected cells to self-destruct. Another set of T cells, nicknamed “helpers,” can coax B cells to mature into antibody-making machines.
(Yet another sector of the immune system assails pathogens within minutes of their arrival, while sending out signals called cytokines to mobilize forces from elsewhere in the body. Some evidence suggests that severe cases of COVID-19 may stem from this early process going awry.)
Antibodies also come with an expiration date: Because they are inanimate proteins and not living cells, they can’t replenish themselves, and so disappear from the blood just weeks or months after they are produced. Hoards of antibodies appear shortly after a virus has breached the body’s barriers, then wane as the threat dissipates. Most of the B cells that produce these early antibodies die off as well.
But even when not under siege, the body retains a battalion of longer-lived B cells that can churn out virus-fighting antibodies en masse, should they prove useful again. Some patrol the bloodstream, waiting to be triggered anew; others retreat into the bone marrow, generating small amounts of antibodies that are detectable years, sometimes decades, after an infection is over. Several studies, including those led by Bhattacharya and Pepper, have found antibodies capable of incapacitating the coronavirus lingering at low levels in the blood months after people have recovered from COVID-19.
“The antibodies decline, but they settle in what looks like a stable nadir,” which is observable about three months after symptoms start, Bhattacharya said. “The response looks perfectly durable.”
Seeing antibodies this long after infection is a strong indication that B cells are still chugging away in the bone marrow, Pepper said. She and her team were also able to pluck B cells that recognize the coronavirus from the blood of people who have recovered from mild cases of COVID-19 and grow them in the lab.
Multiple studies, including one published Friday in the journal Cell, have also managed to isolate coronavirus-attacking T cells from the blood of recovered individuals — long after symptoms have disappeared. When provoked with bits of the coronavirus in the lab, these T cells pumped out virus-fighting signals, and cloned themselves into fresh armies ready to confront a familiar foe. Some reports have noted that analyses of T cells could give researchers a glimpse into the immune response to the coronavirus, even in patients whose antibody levels have declined to a point where they are difficult to detect.
“This is very promising,” said Smita Iyer, an immunologist at the University of California, Davis, who is studying immune responses to the coronavirus in rhesus macaques but was not involved in the new studies. “This calls for some optimism about herd immunity, and potentially a vaccine.”
This new spate of studies could also further assuage fears about how and when the pandemic will end. On Friday, updated guidance released by the Centers for Disease Control and Prevention was misinterpreted by several news reports that suggested immunity against the coronavirus might last only a few months. Experts quickly responded, noting the dangers of propagating such statements and pointing to the wealth of evidence that people who previously had the virus are probably at least partly protected from reinfection for at least three months, if not much longer.
Considered with other recent reports, the new data reinforce the idea that, “Yes, you do develop immunity to this virus, and good immunity to this virus,” said Dr. Eun-Hyung Lee, an immunologist at Emory University who was not involved in the studies. “That’s the message we want to get out there.”
Some illnesses, like the flu, can plague populations repeatedly. But that is at least partly attributable to the high mutation rates of influenza viruses, which can quickly make the pathogens unrecognizable to the immune system. Coronaviruses, in contrast, tend to change their appearance less readily from year to year.
Still, much remains unknown. Although these studies hint at the potential for protectiveness, they do not demonstrate protection in action, said Cheong-Hee Chang, an immunologist at the University of Michigan who was not involved in the new studies. “It’s hard to predict what’s going to happen,” Chang said. “Humans are so heterogeneous. There are so many factors coming into play.”