British scientist Michael Houghton, who works at the University of Alberta, and Americans Harvey J. Alter and Charles M. Rice were awarded the Nobel Prize for Medicine or Physiology on Monday for the discovery of the hepatitis C virus.
Announcing the prize in Stockholm, the Nobel Committee noted that the men's work identified a major source of blood-borne hepatitis that couldn't be explained by the previously discovered hepatitis A and B viruses. Their work, dating back to the 1970s and 1980s, has helped saved millions of lives, it said.
“Thanks to their discovery, highly sensitive blood tests for the virus are now available and these have essentially eliminated post-transfusion hepatitis in many parts of the world, greatly improving global health,” the committee said.
“Their discovery also allowed the rapid development of antiviral drugs directed at hepatitis C,” it added. “For the first time in history, the disease can now be cured, raising hopes of eradicating hepatitis C virus from the world population.”
Houghton is director of the University of Alberta's Li Ka Shing Applied Virology Institute.
“Michael Houghton's achievement cannot be overstated,” said University of Alberta president Bill Flanagan. “Dr. Houghton has made this world a better place. As president of the University of Alberta, the institution where he has dedicated his time, I am proud and exhilarated that his work has been recognized in this way.”
Scientists had long known of the hepatitis A and B viruses, spread largely through contaminated food or water and blood, respectively, but were "toiling in the wilderness" to try to explain many other cases of liver disease until the blood-borne hepatitis C virus was identified in 1989, said Dr. Raymond Chung, liver disease chief at Massachusetts General Hospital.
Now, it's the only chronic viral infection that can be cured in almost all cases within a few months, using one of roughly half a dozen drugs, Chung said. Without such treatment, the virus can lead to permanent scarring of the liver, liver cancer or the need for a transplant.
In an interview with The Associated Press, Rice said he is most proud that the group's work quickly led to a test to screen donors and make the blood supply safer.
"We take it for granted that if you get a transfusion, you're not going to get sick from that transfusion. That was not the case before but is certainly the case now," Rice said.
Dr. Jesse Goodman, a former blood safety expert at the U.S. Food and Drug Administration now at Georgetown University, said that before testing was available, about 1 in 10 blood transfusions carried the risk of passing the virus.
"Now it's 1 in a million," Goodman said.
Rice, 68, worked on hepatitis at Washington University in St. Louis and now is at Rockefeller University in New York. Alter, 85, worked for decades at the U.S. National Institutes of Health and remains active there. Houghton, 69, was born in Britain and worked on hepatitis at the Chiron Corp. in California before moving to the University of Alberta in Canada.
Alter first discovered that blood from patients who did not have hepatitis B could still cause liver inflammation and disease, but for years the cause was unknown. A breakthrough came in 1989, when Houghton and others at Chiron cloned the virus, making its genetic identity known and allowing further research on it, said Nobel Committee member Gunilla Karlsson-Hedestam.
Later, Rice developed lab tools and methods that confirmed the hepatitis C virus could cause liver disease in chimpanzees and humans, directly contributing knowledge that led to tests and treatments.
"We have not seen any more cases since 1997" of hepatitis from a transfusion, Alter said. "Currently we can cure virtually anybody who's identified. With that, it's possible to maybe even eradicate this disease over the next decade," as the World Health Organization hopes to do.
Nobel Committee member Patrik Ernfors drew a parallel between this year's prize and the rush by millions of scientists around the world to find a vaccine to combat the coronavirus pandemic.
"The first thing you need to do is to identify the causing virus," he said. "And once that has been done, that is, in itself, the starting point for development of drugs to treat the disease and also to develop vaccines against the disorder."
Alter and Rice are now working on coronavirus research, while Houghton is trying to develop a hepatitis C vaccine. Houghton said manufacturing delays have been a problem but he expects clinical trials to begin next year in many countries, including the U.S., Germany and Italy.
"To control an epidemic, you need to have a vaccine," Houghton said. For "diseases like gonorrhea, syphilis, chlamydia, we've had cheap drugs available for decades, and yet we still have big epidemics of those diseases."
John McLauchlan, a professor of viral hepatitis at the University of Glasgow, said the three laureates' discovery has made the global elimination of the disease possible -- "the first time we might possibly control a viral infection using only drugs."
Hepatitis C drugs were around $40,000 when they first came out less than a decade ago. They have come down to roughly a quarter of that but are still out of reach for much of the world.
India, Eastern Europe, Egypt and parts of Asia, including Mongolia, remain the areas hardest hit.
Monday's medicine award is the first of six prizes this year being announced through Oct. 12. The others are for work in physics, chemistry, literature, peace and economics.
The Nobel Committee often recognizes basic science that laid the foundations for practical applications in common use today.
"It takes time before it's fully apparent how beneficial a discovery is," said Thomas Perlmann, secretary-general of the Nobel Committee.
The Nobel comes with a gold medal and 10 million Swedish kronor (over $1.1 million), courtesy of a bequest left 124 years ago by the prize's creator, Swedish inventor Alfred Nobel.
Marchione reported from Milwaukee and Cheng from London. Frank Jordans in Berlin contributed to this report.