Over 150 virologists have signed on to a commentary that says all the evidence to date indicates that the coronavirus pandemic started naturally, and it wasn't the result of some kind of lab accident or malicious attack.
They worry that continued speculation about a lab in China is fueling calls for more regulation of experiments with pathogens, and that this will stifle the basic research needed to prepare for future pandemics.
The virologists issued their statement a day before advisors to the federal government completed a review of the existing oversight system for experiments that might make existing pathogens even worse.
At a meeting Friday, those advisors voted to endorse, with minor modifications, a set of recommendations that call for expanding a special decision-making process. This process currently weighs the risks and benefits of experiments that might change "potential pandemic pathogens" in ways that could make them more dangerous.
Their advice will now get considered by officials at multiple agencies and groups across the government who will want to weigh in, including the White House Office of Science and Technology Policy and the National Security Council.
"This will be a deliberative process," says Lawrence Tabak, who is performing the duties of the director of the National Institutes of Health (NIH).
He says it's not clear yet how many NIH-funded research projects might be affected. "We have not yet formally begun to do that analysis," Tabak says. "We just received these recommendations today."
It's that kind of uncertainty that makes infectious disease experts nervous. But some see the proposed changes as a real step forward.
"The government really has a strong interest on behalf of all of us, in the public, in knowing when researchers want to make a virus more lethal or more transmissible, and understanding how that would be done and why that would be done, and whether the benefits are worth it," says Tom Inglesby, director of the Center for Health Security at the Johns Hopkins Bloomberg School of Public Health.
The origins of the pandemic
All of this comes as the lab in China, known as the Wuhan Institute of Virology, is again in the headlines. An internal government watchdog released a report this week criticizing the National Institutes of Health, saying it failed to adequately monitor grant awards given to a nonprofit that had collaborated with scientists at the Wuhan lab.
Felicia Goodrum, a virologist at the University of Arizona, says that open-minded experts have investigated the origins of the pandemic. The available evidence, she says, supports the notion that the virus emerged from nature just like other viruses such as HIV and Ebola did — by jumping from animals into people who had contact with them.
"The evidence that we have to date suggests that SARS-CoV-2 entered the human population by that route," says Goodrum. "There is no evidence to the contrary or in support of a lab leak, nothing credible."
Basic research on viruses, she says, is what led to the swift development of vaccines and drugs to fight the pandemic.
And yet virologists have watched in dismay as misinformation and conspiracy theories have placed the blame on science.
"There's this complete disconnect between reality and what happened," says Michael Imperiale, a virologist at the University of Michigan.
He says that while debates have gone on for years about the wisdom of doing experiments that might make bad viruses even worse, this moment feels different.
"The pandemic," he says, "has really kind of heightened the urgency with which we need to address these issues, just because of all the controversy that's been out there regarding, you know, was this a lab leak or not?"
A bird flu study raises alarm
Unlike, say, nuclear physics research, biology has traditionally had a culture of openness. After the anthrax attacks in 2001, however, biologists began to grapple with the possibility that their published work might serve as recipes for evildoers who wanted to make bioweapons.
And in 2011, there was an outcry after government-funded researchers altered a bird flu virus that can be deadly in people. Their lab work made this virus more contagious in the lab animals that are stand-ins for people.
Critics said they'd created a super flu. Proponents said that viruses sometimes have to be manipulated in the lab to see what they might be capable of; in nature, after all, mutations occur all the time and that is how pandemic strains emerge.
That episode marked the start of a long, heated debate, plus research moratoriums and ultimately the development of new regulations. In 2017, a review system was put into place to weigh the risks and benefits of studies that might make a potential pandemic pathogen even worse. So far just three proposed lines of research, with influenza viruses, have been deemed risky enough to merit that kind of extra scrutiny.
"We are really talking about a small amount of research proposals," says Lyric Jorgenson, the acting associate director for science policy and the acting director of the Office of Science Policy at the NIH.
She says just before the pandemic started, officials asked advisors on the National Science Advisory Board for Biosecurity to consider whether the government needed to be more transparent to the public about how it was making decisions about this kind of research. Before that work was done, the pandemic hit and everything was put on hold. Last year, officials asked the group to evaluate the regulations more comprehensively.
If the proposed changes developed by this advisory group are eventually adopted by the government, an extra layer of oversight would apply to any study "reasonably anticipated" to enhance the transmission or virulence of any pathogen in a way that could make it a public health threat. That means more experiments on more viruses would get a closer look.
"What this new recommendation is saying, is that even if you start with a virus that had no potential to cause an epidemic or pandemic, if you are doing research that will change that virus in a way where it could now cause an uncontrollable disease, or a widely spreading disease, that has to be reviewed by this new framework," says Inglesby.
What's more, the advisory group has noted that "increased transparency in the review process is needed to engender public trust in the review and oversight processes."
What's 'Reasonably Anticipated'
The American Society for Microbiology responded positively, saying "we urge swift implementation of the recommended changes by the federal agencies engaged in this work."
But some virologists think the devil will be in the details if these recommendations turn into policy.
"They keep using this phrase 'reasonably anticipated,'" says Imperiale. "How is that going to be interpreted? Is there going to be clear guidance as to what is meant by that?"
Researchers often don't know what will happen when they start an experiment, says Goodrum, especially when the science is cutting-edge.
"That's where the big scientific advancements come from. And so to tie our hands behind our back, to say we can only do the science that we can anticipate, then we're really restricting innovative science," she says.
Ron Fouchier, the virologist at Erasmus University Medical Center in the Netherlands, whose lab did the bird flu experiments over a decade ago, said in an email that he'd hoped the experience of going through a pandemic would simulate more research, not "unnecessarily delay or restrict it."
He said it looked like many infectious disease researchers in the United States "will face substantial delays in their crucial research efforts, if they can continue that research at all."
The U.S. is unusual in that it has a lot of public discussion of these issues and a system to try to manage the risks, says Inglesby.
He thinks that oversight can be made stronger without getting in the way of science.
"I am avidly, absolutely pro-science and pro-research, and in particular pro-infectious disease research," says Inglesby.
But he says there's a very small part of that research "where there is the potential for very high risk if things go wrong, either by accident or on purpose. And so we have to get the balance right, between the risks that could unfold and the potential benefits."
Transcript
LEILA FADEL, HOST:
The pandemic showed the world what can happen when a dangerous virus starts to spread.
A MARTÍNEZ, HOST:
And that's one reason the government is taking another look at how it regulates some controversial lab experiments on viruses. Officials are meeting with key advisers today.
FADEL: NPR's Nell Greenfieldboyce is here to fill us in on what this means. Hi, Nell.
NELL GREENFIELDBOYCE, BYLINE: Hey there.
FADEL: So what kind of research is under more scrutiny right now?
GREENFIELDBOYCE: Basically, experiments that might make a germ worse, like more contagious or more deadly.
FADEL: Why would a scientist want to make a virus more deadly?
GREENFIELDBOYCE: To understand what viruses are capable of, to get ready in case a virus out in nature mutates. Critics would say this is risky. You're creating new potential threats. A virologist at the University of Michigan, Michael Imperiale, told me that this moment feels different.
MICHAEL IMPERIALE: I think that the pandemic has really kind of heightened the urgency with which we need to address these issues just because of all the controversy that's been out there regarding, you know, was this a lab leak or not?
GREENFIELDBOYCE: A lot of people are suspicious about a lab in China and whether its activities might have started the pandemic. A government watchdog agency actually just criticized the National Institutes of Health, saying it didn't do enough to monitor what research was done with funding it gave to a group that collaborated with that lab.
FADEL: So what do virologists say about the lab leak theory?
GREENFIELDBOYCE: Well, more than 150 of them have just put out a statement saying, look, open-minded people have investigated the pandemic's origins, and the evidence points to the virus coming from nature. Felicia Goodrum is with the University of Arizona. She says the evidence we have to date suggests that this virus jumped into our species when people had contact with animals, just like other viruses have done in the past, like Ebola and HIV.
FELICIA GOODRUM: There is no evidence to the contrary or in support of a lab leak - nothing credible.
GREENFIELDBOYCE: Nonetheless, she worries that scientists will get hit with onerous new regulations and that this will slow down research that's important for developing stuff like vaccines and drugs.
FADEL: Does it seem like the government will put new restrictions in place?
GREENFIELDBOYCE: The White House and lawmakers in Congress have certainly been paying attention. Officials asked some outside advisers to weigh in. It's a group called the National Science Advisory Board for Biosecurity, and it's put together some draft recommendations that basically call for expanding an existing oversight system so that a broader range of experiments would get a special risk-benefit review.
FADEL: So how are scientists reacting to these recommendations?
GREENFIELDBOYCE: The American Society for Microbiology has responded positively, although some experts say the devil will be in the details, like if regulations talk about a proposed experiment that's, quote, "reasonably anticipated to make a pathogen more dangerous," what does reasonably anticipated really mean? I was talking to Tom Inglesby. He's director of the Center for Health Security at the Johns Hopkins Bloomberg School of Public Health. And he told me, you know, you can take a benign virus and turn it into something awful.
TOM INGLESBY: So the government really has a strong interest on behalf of all of us in the public in knowing when researchers want to make a virus more lethal or more transmissible, and an understanding how that would be done, why that would be done, and whether the benefits are worth it.
GREENFIELDBOYCE: But he says, at the same time, you don't want to stifle science that's needed to protect the public health.
FADEL: NPR's Nell Greenfieldboyce - thanks.
GREENFIELDBOYCE: Thanks. Transcript provided by NPR, Copyright NPR.
300x250 Ad
300x250 Ad