Six months ago, as the northern hemisphere was still battling the coronavirus pandemic’s first wave, all eyes turned to the COVID-19 vaccines in late-stage clinical trials. Now, a year after the pandemic first erupted, three COVID vaccines have been given emergency authorization by either the U.S. or U.K., as well as other countries. Two of the vaccines, developed by Pfizer and BioNTech and Moderna, respectively, both employ a novel genetic technology known as mRNA. And the third is a more conventional vaccine developed by the University of Oxford and AstraZeneca that uses a chimpanzee virus to deliver DNA for a component of SARS-CoV-2, the virus that causes COVID. (Russia, China and India have rolled out their own vaccines, but with the exception of a few countries, they have not been widely authorized elsewhere.)
But impressive as they are, these vaccines alone will likely not be sufficient to end the pandemic, experts say. Luckily, there are hundreds of other COVID vaccines under development—including many with new mechanisms of action—that could prove to be effective and cheaper and easier to distribute.
“I believe that this virus is going to change and that the vaccines we have approved right now are just not going to be as effective as we think they are,” says Danny Altmann, an immunologist at Imperial College London. SARS-CoV-2 has already evolved several new variants—including the ones first identified in the U.K. and South Africa, which are more transmissible (though not—for now, at least—more deadly).
Gregory Poland, a vaccinologist at the Mayo Clinic, agrees it is far too early to think we have this virus beat. He points out that no vaccine for a coronavirus has ever been deployed in a public vaccination program. And mRNA vaccines such as Pfizer’s and Moderna’s—touted by many as the future of vaccinology—have never previously been brought to market. “We don’t know what we don’t know. We have no idea what surprises we might find in a virus that we’ve only been aware of for a year,” says Poland, who co-authored an extensive review of COVID-19 vaccine candidates in the Lancet last October. “And the history of vaccinology—in which I’ve been involved for four decades—is amply littered with things we thought we knew.”
What happens if somebody is vaccinated but contracts COVID anyway? Would they suffer an even worse case of illness, a phenomenon known as antibody-dependent enhancement? Or in a less dramatic scenario, what if the vaccines prevent immunized individuals from falling ill but do not prevent them from infecting others? The latter could actually worsen the pandemic if vaccinated individuals think they are safe and become asymptomatic carriers. Moreover, people worldwide display a wide range of natural immunity to the virus, so there may be a similar diversity in vaccine responses. “There are lots of booby traps that could lie in wait,” Poland says.
Furthermore, the vaccines from Moderna and Pfizer have logistical issues that prevent them from being easily deployed globally. Pfizer’s vaccine needs to be stored at –70 degrees Celsius—colder than Antarctica’s average temperatures—in freezers that cost many thousands of dollars. Moderna’s can be stored at –15 degrees C, but because of freezer requirements, it still has little chance of reaching rural corners of India or Africa or poor, densely packed neighborhoods in South America. As long as vaccines are fragile, expensive and difficult to distribute, the pandemic will continue.
But by far the most important issue, Altmann says, is “durability”: how long people remain immune after vaccination. If a vaccine confers immunity for only a few months rather than many years, little progress will have been made in six months. By then we could be faced with more virulent forms of the disease swirling around the globe.
The good news, however, is that “second generation” vaccines are being developed by researchers, many of whom are working with novel techniques. “We have an embarrassment of riches,” Altmann says. “One thing that certainly hasn’t been appreciated by most people is that, on the back burner, the field of vaccinology has been steaming ahead over the past 15 years, developing a range of incredibly snazzy strategies.”
There are nearly 240 novel vaccine candidates in development, waiting in the wings for their moment. Here are a few that show the most potential.
by Zoe Cormier, Scientific American | Read more:
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