https://www.statnews.com/2022/02/01/kariko-problem-lessons-funding-basic-research/ Skip to Main Content STAT * * * Contribute * Subscribe * Log In Try STAT+ Today My Account * My Account * Billing * Log Out Try STAT+ Today My Account [ ] Search Cancel * TOPICS + Coronavirus + Health + Pharma + Biotech + Politics & Policy + Health Tech + In the Lab + Business + Artificial Intelligence + Vaccines + Health Disparities + Prescription Politics * OPINION + First Opinion + The Pharmalot View + Adam's Take + Matt's Take + Off the Charts * TEAM + Biotech & Pharma o Adam Feuerstein o Damian Garde o Matthew Herper o Meghana Keshavan o Kate Sheridan o Ed Silverman o Jonathan Wosen + Health Tech o Mario Aguilar o Katie Palmer o Mohana Ravindranath o Casey Ross + Politics o Rachel Cohrs o Lev Facher o Nicholas Florko + Health & Science o Eric Boodman o Helen Branswell o Angus Chen o Elizabeth Cooney o Isabella Cueto o Olivia Goldhill o Andrew Joseph o Megan Molteni o Usha Lee McFarling o Jennifer Adaeze Okwerekwu o Nicholas St. Fleur + Team o View All * EVENTS + STAT Events + 2022 STAT Breakthrough Science Summit + Industry Events Calendar + View all Summits + Webinars * NEWSLETTERS * REPORTS * VIDEO * PODCASTS + The Readout LOUD + First Opinion Podcast * * STAT+ + STAT+ Exclusive analysis of biotech, pharma, and the life sciences Learn More o The Latest o My Account + Topics o Biotech o Pharma o Policy o Health Tech o Business + Columns o Adam's Take o Matt's Take o The Pharmalot View + Tools o CRISPR Tracker o Drug Pricing Policy Cheat Sheet + Events o STAT+ Conversations o All STAT Events + Team o Biotech and Pharma o Health Tech o Politics and Policy o Health and Science Account * My Account * Billing * Subscribe * Log In * Help More * Contribute * Group Subscriptions Follow Us * * * * * Trending: Coronavirus Pharmalot First Opinion Biotech First Opinion The Kariko problem: Lessons for funding basic research By Stuart BuckFeb. 1, 2022 Reprints * * * * * * * * * [AdobeStock_177503347-645x645] Adobe * * * * * * * * * New scientific institutes are springing up all over the place these days: Arcadia Science, New Science, Arc Institute, Activate, Actuate, Astera, Convergent Research, and more. They're usually funded by Silicon Valley and have bold ambitions to advance scientific progress more quickly. Why this flurry of activity? After all, the National Institutes of Health spent nearly $43 billion on biomedical research in 2021, and the National Science Foundation spent nearly $8.5 billion on other areas of science. Why would anyone want to bother with funding a small fraction of a percent of that? Because they are convinced that the current system of science funding is uncreative and inflexible and that it's time to try new approaches. For example, one common argument is that we need to "fund people not projects," meaning we need to find the smart and visionary scientists and give them funding that isn't tied to narrow projects. advertisement As much as I like this idea, I worry about a different problem, one that none of the new initiatives to date would necessarily fix. I call it the Kariko problem. Katalin Kariko is the now-celebrated scientist who, along with a colleague, published a key paper in 2005 on messenger RNA. Her discovery ultimately formed the basis for two Covid-19 vaccines: one made by Pfizer and BioNTech, where Kariko now works, and one made by Moderna. advertisement But Kariko wasn't always celebrated. Far from it. She earned her PhD in biochemistry at the University of Szeged in Hungary, currently ranked by US News as the 712th best university globally. She emigrated to the U.S. in 1985 with her husband and then-young daughter to take a postdoc position at Temple University in Philadelphia, and eventually got a job as a non-tenure-track research assistant professor at the University of Pennsylvania. But she was demoted in 1995 because, no matter how many times she applied for NIH funding for her mRNA research, she never got a grant for it. As one of her former colleagues wrote, "by the time I joined the lab, Kariko's history was still only discussed in hushed tones as a cautionary tale for young scientists." Kariko herself has said that after such a demotion, it's common to "just say goodbye and leave because it's so horrible." Yet she persisted. A couple of years after her embarrassing demotion, she ran into immunologist Drew Weissman at the office copy machine and struck up a conversation about mRNA. Weissman was intrigued, and asked Kariko to come work in his lab. Eventually, the pair figured out how to modify mRNA just enough that it would still work, but without triggering the body's immune system to kill off the molecule first. That led to their groundbreaking 2005 paper (which, by the way, was recognized as groundbreaking only in retrospect: at the time it was "summarily rejected" by the prestigious journals Nature and Science, with Nature commenting that it was just an "incremental contribution"). It is a miracle that Kariko stuck in academia for so long after being treated this way. That's why we should worry about the invisible Karikos: the people with good ideas that weren't popular at the time who dropped out of academia. It's unlikely that she was the only person in the world who had an interesting idea in 1985 that could have turned into a groundbreaking discovery over the next few decades. We'll never know what we missed. That makes me think about the "fund the person, not the project" approach. To be clear, this could be a great idea, and it is well worth experimenting with. But would Kariko herself have done any better with that approach? It's hard to imagine. At Kariko's demotion in 1995, no one would have said, "Here's a 40-year-old Hungarian scientist who went to a fairly obscure university, who has zero well-known mentors vouching for her, who has spent some 10 years working on a problem that no one thinks is solvable, and who started in a non-tenure track position only to get demoted from there. Let's give her a few million dollars in unrestricted funding over the next 10 years." So here's the Kariko problem in a nutshell: Anyone can identify Kariko in retrospect, given her persistence and her eventual discoveries. But what do we do right now to find the 2022 versions of Kariko who simply don't (yet) look like the "visionaries" or "geniuses" who would be eligible for "person not project" funding? My answer? Bend over backward to fund a more diverse range of people and ideas, even deliberately including ideas that are currently perceived as unpopular, unworkable, obscure, and the like. After all, many scientific discoveries can be traced back to origins that didn't seem promising -- like CRISPR, which began with a Spanish study on salt-loving archaebacteria in 1993 -- or even to ideas that are actively opposed by the establishment. To be sure, the success rate of this approach might be low. But if we funded 10,000 people who looked like a younger Kariko, and only one of them did something that would have the impact of her mRNA research, that would be well worth it. Stuart Buck is the executive director of the Good Science Project and a senior advisor to the Social Science Research Council. * * * * * * * * * About the Author Reprints Stuart Buck @stuartbuck1 Tags research Create a display name to comment This name will appear with your comment [ ] There was an error saving your display name. Please check and try again. [Continue] Trending JB Biden once pledged to 'cure cancer.' His new approach... Biden once pledged to 'cure cancer.' 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