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How academia shunned the science behind the Covid vaccine

<榴莲视频 class="standfirst">Katalin Karikó’s struggle with mRNA gives universities mandate – if they want – to tackle persistent barriers
二月 8, 2021
Dr. Katalin Kariko, 65, the Hungarian born scientist whose work has become the cornerstone in the creation of the Covid-19 vaccine in the lab in the basement of her house.
Source: Matthew McDermott/Polaris/eyevine
Katalin Karikó persisted for decades in her belief that mRNA could be fashioned into a powerful medical tool

As the miracle behind the coronavirus vaccine grows increasingly clear, one US?university is left to consider another potentially transformative discovery: why?it jilted its inventor.

Many of the Covid inoculations now being conducted around the world were made possible by techniques painstakingly at the University of Pennsylvania for manipulating messenger ribonucleic acid (mRNA), a molecule in living cells essential to gene-copying processes.

Penn, however, is alleged to have repeatedly thrown roadblocks in the way of a chief innovator, Katalin Karikó, a soft-spoken Hungarian scientist who persisted for decades in her belief that mRNA could be fashioned into a powerful medical tool.

That determination is now paying off not only with vaccines against Covid-19, but with hopes of powerful new mRNA-based cures?for cancers and other diseases.

Academic honours are already arriving for a discovery widely expected to prove Nobel-calibre. In one of the first, Brandeis University and the Rosenstiel Foundation named Dr Karikó and her research partner Drew Weissman as the 2021 winners of its Rosenstiel Award for Distinguished Work in Basic Medical Research.

In its announcement, Brandeis touched only lightly on the obstacles involved. The award recognises “”, said James Haber, a Brandeis professor of biology and director of the Rosenstiel Basic Medical Sciences Research Center.

But a fuller backstory, to the degree that Penn and others allow it to come out, raises the prospect for academic research of high-profile pressure in key areas of long-standing concern. They include the federal funding of basic science, the academy’s treatment of its lesser privileged, and the structural biases inside governmental and journal peer review processes.

Dr Karikó has been reluctant to talk publicly about matters other than the science. During a recent??hosted by Perry World House, a global affairs centre at Penn, she demurred when asked to reflect on her sudden prominence. “I’m more comfortable to be in the lab, and reading, or doing something, than in the limelight,”?, with a few uneasy waves of her hands.

In published interviews before the public glare grew more intense, she did acknowledge some frustration with the years of rejections from funders, journals and Penn. Key points included numerous grant application rejections, her demotion to an adjunct position in 1995 after a few initial years of work on mRNA, and her 2013 departure for BioNTech – now a celebrated maker of a leading Covid vaccine – to what she described as??from Penn leadership.

Bart Anderson, a biomedical scientist who worked with Dr?Karikó during his doctoral studies at Penn, said that the novelty of mRNA research was probably a major obstacle to her career success.

But networks of professional connections and English communication skills are critical to success in academic research, Dr Anderson said.

“Dr?Karikó provided superb science,” he said. “But she is not the skilled salesman needed to promote the science.

“If the ideas that Dr Karikó was investigating had come from someone with an established and influential network,” Dr Anderson continued, “then I am confident that the uptake of those ideas would have been far different from what Dr?Karikó experienced.”

Penn, as an institution, and leaders in the departments where Dr Karikó worked, have largely declined to discuss what happened. Some said that they were not aware of the overall situation, or warned against trying to look back with the benefit of 2021’s hindsight.

Harvey Friedman, a professor of medicine at Penn who served as director of the Division of Infectious Diseases from 1990 to 2012, said that he remembers Dr Karikó and Professor Weissman regularly briefing their colleagues on their mRNA experiments.

“On numerous occasions after Drew and Kati’s presentations,” he said, “I remember going to Drew’s office and commenting that I didn’t understand why his work was not being published in Nature, Cell or Science, the leading basic science journals. His responses were that no one believed the data.”

Professor Weissman, a professor of medicine at Penn, and Ebbing Lautenbach, a professor of medicine who succeeded Professor Friedman as director of infectious diseases, are among several who – in addition to Dr?Karikó – declined to discuss the matter.

A spokesperson for Penn’s medical school said that the work by Dr Karikó and Professor Weissman that helped enable the Covid vaccines was “a tremendous?point of pride?for the University of Pennsylvania”.

“We are unable to discuss specifics about faculty or staff matters,” the spokesperson said, “but we are grateful for Dr Karikó’s important contributions both during her time at Penn – where she continues to hold an appointment as an adjunct associate professor – and in her present role at BioNTech.”

Scientific journals and government peer review panels also keep their proceedings?mostly hidden from external assessments.

Cases?such as that of Dr?Karikó are hopefully getting less common, Brandeis’ Professor Haber said, as federal grant-awarding agencies put greater emphasis on encouraging “high risk” proposals.

And such situations are tough to read from the outside, said Tobin Smith, vice-president for policy at the Association of American Universities, the leading group of US research institutions.

But well-known problems that the Penn case might ultimately help highlight, he said, include the reluctance among funding agencies to risk money on novel technologies, and personal familiarities affecting peer review decisions.

It’s also notoriously difficult to predict the direction or value of basic scientific research years or decades ahead of time, Mr Smith said. The many important?cautionary examples, he said, include Charles Townes, whose government-funded experiments at Columbia University into??earned him some criticism at the time, followed by his invention of the laser and a Nobel prize.

“It’s absolutely hard to know exactly what the results of certain work will be,” Mr Smith said. “It’s one of the reasons why we argue that you need to fund a strong base of fundamental research.”

paul.basken@timeshighereducation.com

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<榴莲视频 class="pane-title"> Reader's comments (6)
It seems the message of the story is quite simple: When universities try to force you into adjunct status because you are not bringing in enough money, leave, because you have an almost 100% certainty that you can do better elsewhere. And that is what she did.
In part, this situation is due to the novelty of the work. I recall the frustration of a colleague whose grant applications were repeatedly rejected. He had to wait 10 years for the discipline to catch-up to get funding. It is an example of the Semilwiess reflex.
There is a lot of gatekeeping in publishing and grant funding. The system should be much more transparent and dynamic. Better to have discarded ideas then not knowing about them.
I see this so much when I am reviewing - so much innovation stifled, while mainstream funding is circulated around amongst a relatively small group of familiar academics working on reiterations of what is basically the same project at source, often based on 50-year-old theories. Occasionally it's possible for academics to break through, but not often. Some leave, some retire, but overall the loss to society is great.
I don't really concur with the message of this article for a number of reasons. It's not like the potential, therapeutic benefit of mRNA-based products has never been recognised - they have been appreciated since the first inception of "gene-therapy" (the idea of introducing nucleic acid material into patients for therapeutic benefit). However, the early years of gene-therapy were somewhat of a minefield and many assumed that development programs were just too risky to pursue. One of the major reasons for this is the process required to actually deliver nucleic acid material into the cells of a patient - you need a vector. Vectors can be either viral-based (like the AstraZeneca vaccine) or synthetic (often made of lipid molecules like that of the Moderna and Pfizer/BioNTech vaccine). The point being that it has taken a very, very long time for these technologies to become safe, efficient, and, more importantly - consistent in their manufacture. So, I would argue that whilst I don't know the full circumstances surrounding the lack of interest in Kariko's work, it is undoubtedly associated with the early skepticism towards using ANY form of nucleic acid based therapies (because of the early issues with the vector technologies) during the 90s and early 00s. She was probably not the only one to be shunned!
Don’t worry about people stealing your ideas. If it’s original, you’ll have to ram it down their throats. - Howard Aiken (1900 – 1973) Science advances through funerals - Max Planck (1858 – 1947) ... and don't forget that Einstein had to develop his General Relativity as an employee of the Swiss patent office.