
mRNA Vaccine Research Cuts Blow to Innovation
Academic researchers are worried that the government’s plans to stop investing in the development of messenger RNA vaccines, a technology university scientists first used to help develop the COVID-19 vaccines, will undermine the United States’ standing as a global leader in biomedical research and development.
As promising as mRNA technology may be for treating a range of maladies, including numerous types of cancer and autoimmune diseases, its role in developing the COVID vaccine has thrust it into a political crossfire, fueled by the Trump administration’s smoldering criticisms of the Biden administration’s handling of the pandemic.
Last week, Robert F. Kennedy Jr., director of the Department of Health and Human Services, who frequently cites misinformation about vaccines and other public health issues, announced that the department is winding down mRNA vaccine research under the Biomedical Advanced Research and Development Authority and canceling $500 million worth of contracts and grants with numerous biotech companies and Emory University in Atlanta.
“We reviewed the science, listened to the experts, and acted,” Kennedy, a lawyer by training, said in a statement, claiming that “the data show these vaccines fail to protect effectively against upper respiratory infections like COVID and flu. We’re shifting that funding toward safer, broader vaccine platforms that remain effective even as viruses mutate.”
Jeff Coller, director of the RNA Innovation Center at Johns Hopkins University, whose own graduate student helped develop Moderna’s COVID vaccine, said that “mRNA technology is incredibly misunderstood by the public and many of our politicians.”
Despite that, “the science has always been consistently clear about the powerful medical benefits of the mRNA platform,” he said. “It’s saved millions of lives, is incredibly safe, has huge potential and will revolutionize medicine in the next 100 years. Yet, we’re ceding American leadership in this technology.”
The half-a-billion-dollar cut comes at the same time that the Trump administration has withdrawn support for federally funded scientific research that doesn’t align with its ideological views, including projects focused on vaccine hesitancy, LGBTQ+ health and climate change.
According to a report from STAT News, the 181-page document Kennedy cited as his evidence that mRNA vaccines aren’t safe or effective references disputed studies written by other skeptics of COVID mitigation protocols, including stay-at-home orders and vaccines.
Jay Bhattacharya, director of the National Institutes of Health, who criticized the NIH’s pandemic guidance in 2020, has also publicly defended the decision on Fox News, Steven Bannon’s podcast War Room and in an opinion article he published in The Washington Post Tuesday.
In his op-ed, Bhattacharya acknowledged that mRNA is a “promising technology” that “may yet deliver breakthroughs in treating diseases such as cancer,” but that “as a vaccine intended for broad public use, especially during a public health emergency, the platform has failed a crucial test: earning public trust.”
“Unfortunately, the Biden administration did not manage public trust in the coronavirus vaccines, largely because it chose a strategy of mandates rather than a risk-based approach and did not properly acknowledge Americans’ growing concerns regarding safety and effectiveness,” he wrote.
‘Political Shot Across the Bow’
The vast majority of scientists agree that the mRNA-based COVID vaccine—which was created in record time as a result of President Donald Trump’s Operation Warp Speed, launched in 2020—is generally safe and effective.
“I’m concerned about [the cut] weakening our country and putting us at a disadvantage,” said an mRNA researcher who asked to remain anonymous out of fear of retaliation. “The promise of mRNA is almost limitless, and I’d like to see those advances being made in this country. But currently it seems those advances are more likely to come from Europe and Asia. I’m also worried about the impact this could have on our economy—this is a growing field of industry.”
Coller, of Johns Hopkins, said Kennedy’s decision to withdraw funding for mRNA vaccine research has more than financial implications.
“It was a political shot across the bow of the entire research community, both in industry and academia,” Coller said. “What it says is that the government doesn’t want to support this technology and is going to make sure it doesn’t happen. If you’re an academic thinking about starting a new program in mRNA medicines, don’t waste your time.”
And now it will be even easier for political whims to drive the government’s scientific research priorities. Last week, Trump issued an executive order that will put political appointees—rather than subject-matter experts—in charge of federal grant-making decisions.
Heather Pierce, senior director for science policy and regulatory counsel at the Association of American Medical Colleges, said that while Kennedy’s decision won’t end all of the nation’s mRNA research, “the indication that a certain technology or scientific area won’t be pursued regardless of the progress made so far is worrisome as a concept.”
That’s in part because “when we unilaterally close the door on a specific type of research or technology, we don’t know what would have come from that,” she said. “It’s not to say that every research project using every technology and scientific tool will necessarily lead to a cure or breakthrough, but the initial funding of these projects shows that there was promise that made it worth exploring.”
Both Kennedy and Bhattacharya have said the government will continue to support research on other uses of mRNA technology unrelated to infectious disease vaccines. But experts say separating those research areas isn’t so simple.
“They’re all interconnected,” said Florian Krammer, a professor of vaccinology at the Icahn School of Medicine at Mount Sinai. “If you take away funding in the infectious disease space and innovation doesn’t happen there, it’s also not happening in other spaces where mRNA technology is used.”
That will create a “huge problem for researchers,” he added, “because a lot of fields are using this technology, and if it’s not moving forward, it closes doors.”
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