New Drug Targeting Cancer Vulnerability Shows Great Promise
By LabMedica International staff writers
Posted on 09 Jul 2009
British scientists have completed a phase I clinical trial demonstrating the vast potential of a completely new type of cancer treatment. Posted on 09 Jul 2009
The scientists involved in the project, from the Institute of Cancer Research (ICR; London, UK) and the Royal Marsden Hospital (London, UK), working with the pharmaceutical company AstraZeneca (London, UK), published their research findings June 25, 2009, in The New England Journal of Medicine.
Patients with inherited forms of advanced breast, ovarian, and prostate cancers--caused by mutations in the BRCA1 and BRCA2 genes--were treated with the new drug olaparib (a PARP inhibitor). Despite having earlier received many conventional therapies, in more than half of the patients tumors shrank or stabilized. One of the first patients to be given the treatment is still in remission after two years.
Olaparib targets the cancer cells but leaves healthy cells relatively unharmed. Importantly, patients experienced very few side effects and some reported the treatment was "much easier than chemotherapy.” Dr. Johann de Bono, one of the ICR scientists who led the AstraZeneca/KuDOS-sponsored phase I trial held at The Royal Marsden and the Netherlands Cancer Institute (Amsterdam), reported that the positive results confirmed olaparib should be taken into larger patient trials. "This drug showed very impressive results in shrinking patients' tumors,” Dr. de Bono commented. "It's giving patients who have already tried many conventional treatments long periods of remission, free from the symptoms of cancer or major side effects.”
Olaparib is the first successful example of a new type of personalized medicine using "synthetic lethality,” in which the treatment works in combination with a patient's own specific molecular defect. It was based on experiments conducted at the ICR showing that some cancers had an Achilles' heel: If drugs, such as olaparib, are used to block an enzyme called PARP (poly [ADP-ribose] polymerase) in the body, the tumor cells' DNA breaks down and they die.
Cancer cells with the BRCA1 or BRCA2 mutations were the first discovered to be sensitive to PARP inhibitors, but there is evidence that olaparib will be effective in other cancers with different defects in the repair of DNA--this could include some noninherited breast and prostate cancers and up to 50% of the most common type of ovarian cancer.
"This is a very important drug for the treatment of BRCA1/2-related cancer,” ICR scientist and joint lead researcher Prof. Stan Kaye, stated. "The next step is to test this drug on other more common types of ovarian and breast cancers where we hope it will be just as effective.”
Prof. Alan Ashworth, director of the Breakthrough Breast Cancer Research Center at the ICR, developed the approach of targeting defects in DNA repair in cancer. "We are delighted that the work we did in the lab has been translated so quickly into potential benefit for patients,” Prof. Ashworth noted. "This concept is now being tested in a variety of clinical trials across the world.”
Related Links:
Institute of Cancer Research
Royal Marsden Hospital
AstraZeneca