Covid-19 antibodies waning? The immune system has a backup plan for that

Concern that Covid-19 vaccines are providing a weaker shield against the more-transmissible Delta strain has prompted health authorities to consider offering booster doses. PHOTO: NYTIMES

NEW YORK (BLOOMBERG) - Antibodies against the coronavirus wane over time, but the immune system has a backup plan that doesn't rely on boosters, according to a study by scientists at the University of Pennsylvania, where technology for mRNA vaccines was developed.

Researchers at the university's Perelman School of Medicine tracked 61 people for six months after immunisation with mRNA vaccines.

The team noted that antibodies gradually ebbed, but that the shots generated durable immune memory to Sars-CoV-2 in the form of B and T cells that increased over time to help ward off serious illness.

"That was maybe a little bit surprising," said John Wherry, director of the institute for immunology, who works in the same faculty as mRNA pioneer Drew Weissman.

The research was released Aug 23 ahead of peer-review and publication. Concern that Covid vaccines are providing a weaker shield against the more-transmissible delta strain in countries that began immunisations early has prompted health authorities to consider offering third doses to boost antibody levels.

US President Joe Biden said Friday his administration is considering whether to start offering extra jabs as soon as five months after receiving a second dose.

Although third doses promise to bolster antibodies and make them better at blocking Sars-CoV-2 for longer, the body has its own natural support to defend against Covid-19 even when circulating antibody levels decline, Mr Wherry said.

"Should antibodies wane and you get a little bit of local infection, you have memory B cells there to sort of renew or respond very rapidly to make new neutralising antibodies," he said.

Antibodies on mucosal surfaces lining the nose and throat block the coronavirus at its portal of entry, preventing it from causing an infection.

But, as protective antibodies there fade, an infection is more likely to take hold - at least until new antibodies are triggered in response.

Mr Wherry's group found that memory B cells generated by the mRNA vaccines made by Moderna Inc and Pfizer Inc and its partner BioNTech SE appeared better at blocking virus variants including alpha, beta and delta, than those produced in response to a mild case of Covid-19.

Additionally, high levels of vaccine-induced T cells, a type of white blood cell capable of finding and killing virus-infected cells, were detected after six months, "maintaining an additional armor to protect us," Mr Wherry said.

The findings help to explain why immunisation remains effective at protecting against severe Covid-19, hospitalisation and death even as more break-through infections occur.

"We're seeing a drop in efficacy when you only measure whether people get infected, but really, really steady immunity if you're measuring severe-disease outcomes," Mr Wherry said.

"That fits with the idea that circulating antibodies are going to protect you from infection, but memory B cells and memory T cells, while they may not eliminate the ability to have some virus in your nose, they're actually going to prevent severe disease."

The immune backups will also decrease the duration of Covid symptoms, prevent them from worsening, and reduce the likelihood of transmitting a Sars-CoV-2 infection to other people, he said.

"Vaccinated people are really not fueling this fire; it's really unvaccinated people that are," Mr Wherry said. "So that's more reason to get vaccinated."

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