Decades of research laid groundwork for speedy coronavirus vaccines: experts

How could scientists race out COVID-19 vaccines so fast without cutting corners? A head start helped — over a decade of behind-the-scenes research that had new vaccine technology poised for a challenge just as the coronavirus erupted.

“The speed is a reflection of years of work that went before,” Dr. Anthony Fauci, the top U.S. infectious disease expert, told The Associated Press. “That’s what the public has to understand.”

Creating vaccines and having results from rigorous studies less than a year after the world discovered a never-before-seen disease is incredible, cutting years off normal development. But the two U.S. frontrunners are made in a way that promises speedier development may become the norm — especially if they prove to work long-term as well as early testing suggests.

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“Abject giddiness,” is how Dr. C. Buddy Creech, a Vanderbilt University vaccine expert, described scientists’ reactions when separate studies showed the two candidates were about 95 per cent effective.

“I think we enter into a golden age of vaccinology by having these types of new technologies,” Creech said at a briefing of the Infectious Diseases Society of America.

Both shots — one made by Pfizer and BioNTech, the other by Moderna and the National Institutes of Health — are so-called messenger RNA, or mRNA, vaccines, a brand-new technology. U.S. regulators are set to decide this month whether to allow emergency use, paving the way for rationed shots that will start with health workers and nursing home residents.

Billions in company and government funding certainly sped up vaccine development — and the unfortunately huge number of infections meant scientists didn’t have to wait long to learn the shots appeared to be working.

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Coronavirus: Operation Warp Speed official discusses U.S. coronavirus vaccine timelines, distribution

But long before COVID-19 was on the radar, the groundwork was laid in large part by two different streams of research, one at the NIH and the other at the University of Pennsylvania — and because scientists had learned a bit about other coronaviruses from prior SARS and MERS outbreaks.

“When the pandemic started, we were on a strong footing both in terms of the science” and experience handling mRNA, said Dr. Tal Zaks, chief medical officer of Massachusetts-based Moderna.

Traditionally, making vaccines required growing viruses or pieces of viruses — often in giant vats of cells or, like most flu shots, in chicken eggs — and then purifying them before next steps in brewing shots.

The mRNA approach is radically different. It starts with a snippet of genetic code that carries instructions for making proteins. Pick the right virus protein to target, and the body turns into a mini vaccine factory.

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“Instead of growing up a virus in a 50,000-litre drum and inactivating it, we could deliver RNA and our bodies make the protein, which starts the immune response,” said Penn’s Dr. Drew Weissman.

Fifteen years ago, Weissman’s lab was trying to harness mRNA to make a variety of drugs and vaccines. But researchers found simply injecting the genetic code into animals caused harmful inflammation.

Weissman and a Penn colleague now at BioNTech, Katalin Kariko, figured out a tiny modification to a building block of lab-grown RNA that let it slip undetected past inflammation-triggering sentinels.

“They could essentially make a stealth RNA,” said Pfizer chief scientific officer Dr. Philip Dormitzer.

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Coronavirus: Promise of COVID vaccines is ‘phenomenal,’ WHO says

Other researchers added a fat coating, called lipid nanoparticles, that helped stealth RNA easily get inside cells and start production of the target protein.

Meanwhile at the NIH, Dr. Barney Graham’s team figured out the right target — how to use the aptly named “spike” protein that coats the coronavirus to properly prime the immune system.

The right design is critical. It turns out the surface proteins that let a variety of viruses latch onto human cells are shape-shifters — rearranging their form before and after they’ve fused into place. Brew a vaccine using the wrong shape and it won’t block infection.

“You could put the same molecule in one way and the same molecule in another way and get an entirely different response,” Fauci explained.

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That was a discovery in 2013, when Graham, deputy director of NIH’s Vaccine Research Center, and colleague Jason McLellan were investigating a decades-old failed vaccine against RSV, a childhood respiratory illness.

They homed in on the right structure for an RSV protein and learned genetic tweaks that stabilized the protein in the correct shape for vaccine development. They went on to apply that lesson to other viruses, including researching a vaccine for MERS, a COVID-19 cousin, although it hadn’t gotten far when the pandemic began.

“That’s what put us in a position to do this rapidly,” Graham told the AP in February before the NIH’s vaccine was first tested in people. “Once you have that atomic-level detail, you can engineer the protein to be stable.”

Likewise, Germany’s BioNTech in 2018 had partnered with New York-based Pfizer to develop a more modern mRNA-based flu vaccine, giving both companies some early knowledge about how to handle the technology.

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COVID-19 vaccination rollout plan in United Kingdom

“This was all brewing. This didn’t come out of nowhere,” said Pfizer’s Dormitzer.

Last January, shortly after the new coronavirus was reported in China, BioNTech CEO Ugur Sahin switched gears and used the same method to create a COVID-19 vaccine.

Moderna also was using mRNA to develop vaccines against other germs including the mosquito-borne Zika virus — research showing promise but that wasn’t moving rapidly since the Zika outbreak had fizzled.

Then at the NIH, Graham woke up on Saturday Jan. 11 to see Chinese scientists had shared the genetic map of the new coronavirus. His team got to work on the right-shaped spike protein. Days later, they sent Moderna that recipe — and the vaccine race was on.

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The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Department of Science Education. The AP is solely responsible for all content.

© 2020 The Canadian Press

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