Two immunologists, James Allison from the University of Texas Austin and Tasuku Honjo from Kyoto University, have won the 2018 Nobel Medicine Prize for research that has revolutionised the treatment of cancer. The pair were honoured'for their discovery of cancer therapy by inhibition of negative immune regulation,' the Nobel Assembly said. Immune checkpoint inhibitor therapy targets proteins made by some immune system cells, as well as some cancer cells. The proteins can stop the body's natural defences from killing cancer cells. The therapy is designed to remove this protein'brake' and allow the immune system to more quickly get to work fighting the cancer.
The two researchers, from Japan and the U.S., who won the Nobel Prize in medicine on Monday are credited for discoveries that have revolutionized cancer care, turning the body's immune system loose to fight tumors. James Allison of the University of Texas M.D. Anderson Cancer Center and Tasuku Honjo of Kyoto University learned how cancer can put the brakes on the immune system -- and how to release those brakes. Their work, conducted separately during the 1990s, led to the development of drugs known as "checkpoint inhibitors," first used to treat the deadly skin cancer melanoma but now used for a growing list of advanced-stage tumors, including those of the lungs, head and neck, bladder, kidney, colon and liver. The drugs marked an entirely new way to treat tumors, a kind of immunotherapy that uses the patient's own body to kill cancer cells. Up until then, the standard arsenal consisted of surgery to remove the tumor and radiation and chemotherapy to poison the cancer.
Two scientists who discovered how to fight cancer using the body's immune system have won the 2018 Nobel Prize for physiology or medicine. The work by James P Allison, from the US, and Tasuku Honjo, from Japan, has led to treatments for advanced, deadly skin cancer. Immune checkpoint therapy has revolutionised cancer treatment, said the prize-giving Swedish Academy. Experts say it has proved to be "strikingly effective". Allison, a professor at the University of Texas, and Honjo, a professor at Kyoto University, will share the Nobel prize sum of nine million Swedish kronor - about $1.01 million or 870,000 euros.
STOCKHOLM – Japanese scientist Tasuku Honjo, who jointly won this year's Nobel Prize in physiology or medicine for his research on the immune system that contributed to cancer treatments, said Thursday that he believes most cancers will become treatable with immunotherapy by 2050. The 76-year-old professor and deputy director-general at the Kyoto University Institute for Advanced Study spoke at a news conference at the Karolinska Institute in Stockholm, joined by American scientist James Allison, who shared the prize. The discovery by Honjo and Allison -- on methods to inhibit negative immune regulation -- established a new principle for cancer treatment that stimulates the inherent ability of the human immune system to unleash attacks on tumor cells, according to the Nobel Assembly. Honjo said it may become possible to contain the growth of most cancer cells through such treatment, even if cancer cannot be completely eliminated, as he discussed the effectiveness of combination therapy using drugs in the development of which he and Allison were involved. The Kyoto native and his team discovered PD-1, a protein on immune cells that operates as a brake on the immune system.
STOCKHOLM – Japanese scientist Tasuku Honjo was awarded on Monday this year's Nobel Prize in physiology or medicine, for his discovery of a protein that contributed to the development of an immunotherapeutic drug against cancer. Honjo, a 76-year-old professor at Kyoto University, won the prize with U.S. national James Allison, the Nobel Assembly at the Karolinska Institute said. Honjo opened a pathway for a new cancer treatment by discovering the PD-1 protein, which is responsible for suppressing immune response. "I'm very honored and pleased to receive the Nobel Prize in physiology or medicine," Honjo told a news conference following the announcement. His method of treating cancer -- by controlling the protein's function to suppress immunity -- led to the development of Nivolumab, a drug marketed as Opdivo and used against lung cancer and melanoma.