Scientists make new drug agent that kills multiple enzymes in cancer pathway
Washington, March 26 (ANI): An international team of researchers have come up with a new anti-cancer agent that is about 200 times more active in killing cancer cells than other drugs used in clinical trials to date.
Led by University of Illinois scientists, the team of 24 researchers have revealed that the new agent belongs to a class of drugs called bisphosphonates.
According to them, such compounds were originally developed to treat osteoporosis and other bone diseases, but were recently found to also have potent anti-cancer and immune boosting properties.
Emphasizing that nearly a third of all human cancers involve a mutation in a gene called Ras, which causes cell signalling to go awry, the researchers highlight the fact that efforts to design potential drugs to prevent such irregularity have met with limited successful.
Given that bisphosphonates act on enzymes called FPPS and GGPPS, which are upstream of Ras in the cell survival pathway, the researchers say that inhibiting these enzymes seems to be a more effective strategy for killing cancer cells.
The scientists used the bisphosphonate drug zoledronate in combination with hormone therapy in a recent clinical trial, and found it to significantly reduce the recurrence of breast cancer in pre-menopausal women with oestrogen-receptor-positive breast cancer.
Similar results were reported previously for hormone-refractory prostate cancer, they say.
However, zoledronate quickly binds to bone, reducing its efficacy in other tissues.
"We're trying to develop bisphosphonates that will be very active but won't bind to the bone, because if they bind to the bone they're not going to go to breast, lung or other tissues," said lead researcher Eric Oldfield, a professor of Chemistry at the University of Illinois.
"The new drugs are about 200 times more effective than the drugs used in recent clinical trials at killing tumour cells and in activating gamma delta T-cells to kill tumour cells. They also prevent tumour progression in mice much better than do existing bisphosphonate molecules," Oldfield said.
The study appears in the Journal of the American Chemical Society. (ANI)
-
India vs New Zealand T20 World Cup 2026 Final: Five Positive Signs Favouring India Before Title Clash -
IND vs NZ Final Live: When and Where to Watch India vs New Zealand T20 World Cup 2026 Title Clash -
Ind vs NZ T20 World Cup 2026: New Zealand Needs 256 Runs To Beat India And Win The World Cup -
UAE Attacks Iran, Becomes 5th Nation To Enter War; Reports Suggest Strike On Iranian Facility -
ICC T20 World Cup 2026 Final: Ricky Martin, Falguni Pathak To Perform At Closing Ceremony, How To Watch -
Who Is Nishant Kumar: Education, Personal Life and Possible Political Role -
IND vs NZ T20 WC Final: New Zealand Win Toss, Opt To Chase; Why Batting First Could Be A Tough Call For India -
Gold Rate Today 8 March 2026: IBJA Issues Fresh Gold Rates; Tanishq, Malabar, Kalyan, Joyalukkas Prices -
From Kerala Boy To World Cup Hero: Sanju Samson’s 89-Run Blitz, His Birth, Religion, Wife And Inspiring Story -
Hyderabad Gold Silver Rate Today, 8 March, 2026: Latest Gold Prices And Silver Rate In Nizam City -
Panauti Stadium? Is Narendra Modi Stadium an Unlucky Venue for India National Cricket Team? -
Storm Over West Bengal Govt's 'Snub' To President Droupadi Murmu
Click it and Unblock the Notifications
Sign in with Google