PR85944

NEW YORK, Oct. 6, 2020 /PRNewswire=KYODO JBN/ --

Charles M. Rice (

https://c212.net/c/link/?t=0&l=en&o=2939845-1&h=2408583115&u=https%3A%2F%2Fwww.rockefeller.edu%2Four-scientists%2Fheads-of-laboratories%2F893-charles-m-rice%2F&a=Charles+M.+Rice

), who studies disease-causing viruses and how the immune system defends

against them, is this year's recipient of the Nobel Prize in Physiology or

Medicine, the Nobel Foundation in Stockholm, Sweden, announced today. Rice is

the Maurice R. and Corinne P. Greenberg Professor in Virology and Head of the

Laboratory of Virology and Infectious Disease. He shares the prize with Harvey

J. Alter of the National Institutes of Health and Michael Houghton of the

University of Alberta.

Rice's research directly contributed to a cure for hepatitis C, an aggressive

disease that affects 170 million people worldwide. His lab worked on the virus

for three decades and became the first to produce a version of it that could be

cultured and studied in the laboratory. This milestone--which involved

developing an edited version of the viral genome that replicates and produces

viral proteins--led directly to the creation of three new classes of drugs to

treat hepatitis C infection. Studies have shown that a combination of these

drugs is able to reduce hepatitis C viral load to undetectable levels,

effectively curing the disease.

"A chronic infection that has taken many lives, hepatitis C is now curable.

Over time, this medical advance will save millions of lives and improve many

more, and it is a direct result of Charlie's research," says Richard P. Lifton

(

https://c212.net/c/link/?t=0&l=en&o=2939845-1&h=134064362&u=https%3A%2F%2Fwww.rockefeller.edu%2Fabout%2Fexecutive-leadership%2Fpresident%2F&a=Richard+P.+Lifton

), The Rockefeller University's president. "His work on viruses, including the

signature achievement of growing hepatitis C in the lab, perfectly embodies

this university's mission: science for the benefit of humanity. I am thrilled

that he has been selected for the Nobel Prize, the highest honor in science."

Alter and Houghton originally cloned the genome of the hepatitis C virus in

1989, a major advance that enabled identification of people infected with the

virus and elimination of the virus from the blood supply. However, for years

efforts to propagate the virus in liver cells in the lab--crucial to further

study and the development of medicine--failed. Rice demonstrated that the

reason was that the end of the viral genome, required for the initiation of

viral replication, was missing. He completed the characterization of the viral

genome in 1996 and a year later was successful in producing an infectious virus

in the lab.

He went on to develop sub-genomic amplicons of the virus that could replicate

in cells without producing live virus, which made it possible to design assays

to test for drugs capable of directly inhibiting viral replication. By 2013 the

first in a series of such drugs, developed with the help of Rice's technology,

received FDA approval for use in patients. Several are now available, and in

combination they can cure the vast majority of people with hepatitis C after a

short course of treatment with virtually no toxicity.

In addition, Rice's group has developed methods to test factors that limit

infection in hepatitis C, hepatitis B, influenza A, dengue, yellow fever, Zika,

chikungunya, and coronavirus. In response to the COVID-19 pandemic, Rice has

used CRISPR technology to identify novel therapeutic targets (

https://c212.net/c/link/?t=0&l=en&o=2939845-1&h=3001610038&u=https%3A%2F%2Fwww.rockefeller.edu%2Fnews%2F29008-scientists-uncover-antiviral-protein-blocks-coronavirus-infection%2F&a=novel+therapeutic+targets

) for SARS-CoV-2, and translated techniques developed in his hepatitis C work

to screen drugs for the ability to inhibit the coronavirus (

https://c212.net/c/link/?t=0&l=en&o=2939845-1&h=2809037951&u=https%3A%2F%2Fwww.rockefeller.edu%2Fnews%2F27795-rockefeller-launching-covid19-research%2F&a=screen+drugs+for+the+ability+to+inhibit+the+coronavirus

)--work which is currently ongoing.

Rice is the 26th scientist associated with Rockefeller University to be honored

with the Nobel Prize. In addition to Rice, four other Nobel Prize winners are

current members of the Rockefeller faculty: Michael W. Young (2017), Roderick

MacKinnon (2003), Paul Nurse (2001), and Torsten Wiesel (1981).

Born in Sacramento, CA, in 1952, Rice received his Ph.D. in biochemistry in

1981 from the California Institute of Technology, where he stayed on as a

postdoctoral research fellow from 1981 to 1985. Before he joined Rockefeller in

2001, he spent 14 years on the faculty of the Washington University School of

Medicine. He is a member of the National Academy of Sciences and a previous

recipient of the 2007 M.W. Beijerinck Virology Prize, the 2015 Robert Koch

Award, the 2016 InBev-Baillet Latour Health Prize, and the 2016 Lasker-DeBakey

Clinical Medical Research Award.

About The Rockefeller University

The Rockefeller University is the world's leading biomedical research

university and is dedicated to conducting innovative, high-quality research to

improve the understanding of life for the benefit of humanity. The university's

unique approach to science has led to some of the world's most revolutionary

and transformative contributions to biology and medicine. During Rockefeller's

119-year history, our scientists have won 26 Nobel Prizes, 23 Albert Lasker

Medical Research Awards, and 20 National Medals of Science.

Media contact

Katherine Fenz, Media Relations Manager

kfenz@rockefeller.edu

SOURCE: The Rockefeller University