Two scientists won the Nobel Prize in medicine for research that laid the groundwork for some of the best-selling medicines of all time: the messenger-RNA vaccines against COVID-19.
Katalin Kariko and Drew Weissman’s work helped pioneer the technology that enabled Moderna Inc. and the Pfizer Inc.-BioNTech SE partnership to swiftly develop shots. The vaccines have been given to hundreds of millions of people around the world, a key step toward easing the coronavirus pandemic.
Kariko and Weissman will share the $1 million award, the Nobel Assembly at the Karolinska Institute in Stockholm said in a statement Monday.
The scientists showed how to solve one of the major problems of mRNA by tweaking it to avoid causing inflammation. Their research, published in 2005, was one of the building blocks that allowed it to be introduced into the body.
“Through their groundbreaking findings, which have fundamentally changed our understanding of how mRNA interacts with our immune system, the laureates contributed to the unprecedented rate of vaccine development during one of the greatest threats to human health in modern times,” the Nobel Assembly said.
Their work became the basis for a new type of inoculation. Instead of introducing a weakened or dead virus into the body to teach the immune system to recognize an infection, mRNA is used to prompt cells to produce what’s needed for a vaccine themselves. The approach is much quicker, and enabled Moderna and the Pfizer-BioNTech team to develop shots against COVID in less than 11 months.
Kariko, born in Hungary, and Weissman, an American, labored in relative obscurity for years with an approach that many other scientists had written off as too difficult to use.
Weissman earned his medical doctorate in immunology and microbiology at Boston University in 1987, joining UPenn in 1997 after a fellowship at Anthony Fauci’s lab at the National Institutes of Health.
In a story that seems destined to become part of medical history, Kariko and Weissman met over a Xerox machine. Both were avid readers of medical journals, and as they copied hundreds of pages, they began to talk about their research. Weissman was interested in dendritic cells, which help the immune system adapt to fight intruders. Kariko thought mRNA could help.
In 2005, the team published a breakthrough paper solving one of the major problems with using mRNA. Up to that point, introducing the molecule into a cell would cause inflammation, and sometimes the cell — or the lab mouse — would die. Kariko and Weissman made a slight modification in uridine, one of the building blocks that make up mRNA, mimicking a process that occurs naturally in the body. When they did, the inflammation no longer happened.
Annual prizes for achievements in physics, chemistry, medicine, literature and peace were established in the will of Alfred Nobel, the Swedish inventor of dynamite, who died in 1896. A prize in economic sciences was added by Sweden’s central bank in 1968.
The laureates are announced through Oct. 9 in Stockholm, with the exception of the peace prize, whose recipients are selected by the Norwegian Nobel Committee in Oslo.
