NEW YORK (AP) — Two Americans and a German-American won the Nobel Prize in medicine Monday for illuminating how tiny bubbles inside cells shuttle key substances around like a vast and highly efficient fleet of vans, delivering the right cargo to the right place at the right time.
Scientists believe the research could someday lead to new medicines for epilepsy, diabetes and other conditions.
The work has already helped doctors diagnose a severe form of epilepsy and immune deficiency diseases in children. It has also aided research into the brain and many neurological diseases, and opened the door for biotech companies to make yeast pump out large quantities of useful proteins like insulin.
The $1.2 million prize will be shared by James Rothman, 62, of Yale University, Randy Schekman, 64, of the University of California, Berkeley, and Dr. Thomas Sudhof, 57, of Stanford University.
They unlocked the mysteries of the cell's internal transport system, which relies on bubble-like structures called vesicles to deliver substances the cell needs. The fleet of vesicles is sort of the FedEx of the cellular world.
When a pancreas cell releases insulin or one brain cell sends out a chemical messenger to talk to a neighboring one, for example, the vesicles have to deliver those substances to the right places on the cell surface. They also ferry cargo between different parts of a cell.
"Imagine hundreds of thousands of people who are traveling around hundreds of miles of streets; how are they going to find the right way? Where will the bus stop and open its doors so that people can get out?" Nobel committee secretary Goran Hansson said. "There are similar problems in the cell."
Jeremy Berg, former director of the National Institute of General Medical Sciences in Bethesda, Md., said the prize was long overdue and widely expected because the work was "so fundamental and has driven so much other research."
Berg, who now directs the Institute for Personalized Medicine at the University of Pittsburgh, said the work provided the intellectual framework that scientists use to study how brain cells communicate and how other cells release hormones.
So the work has indirectly affected research into virtually all neurological disease as well as other diseases, he said.
In the 1970s, Schekman discovered a set of genes that were required for vesicle transport. Rothman revealed in the 1980s and '90s how vesicles delivered their cargo to the right places. Also in the '90s, Sudhof identified the machinery that controls when vesicles release chemical messengers from one brain cell that let it communicate with another.
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