Adelaide: International research involving the University of Adelaide has helped
explain how tumour cells become resistant to common therapies used in
the treatment of prostate cancer. The findings, published in the prestigious journal Nucleic Acids Research, may lead to better patient management and new drugs for men with advanced prostate cancer. Speaking in the lead up to Men’s Health Week (15-21 June), University of Adelaide prostate cancer researcher Professor Wayne Tilley says until now, it was unclear how prostate cancer cells evade common hormone therapy treatments. “In
this study with the Masonic Cancer Centre at the University of
Minnesota, we have shown that a variant of a protein present in most
tumours is an important driver of resistance to hormone therapy in
advanced prostate cancer,” says Professor Tilley, Director of the
University’s Dame Roma Mitchell Cancer Research Laboratories (DRMCRL). “This research provides important insight into how prostate cancers advance to a lethal phase.
“And
we’ve shown that a new class of drug in clinical development for blood
cancers, but not previously tested in prostate cancer, could effectively
inhibit the variant protein that drives drug resistance and lethal
disease.
“While we are a long way from a cure for advanced
cases, this research opens the door to the development of new treatments
that will be able to prolong a patient’s life,” he says.
Dr
Luke Selth says cancer cells are resilient and highly adaptive, and this
research is aimed at addressing how to outsmart them.
“Prostate
cancer is one of the most commonly diagnosed cancers in men and kills
more than 3,000 Australians each year,” says Dr Selth, from the DRMCRL
and Freemasons Foundation Centre for Men’s Health.
“Many
men can be cured of their prostate cancer if it is diagnosed early,
through surgery and radiation therapy. However, for some men, their
cancer will progress to a stage that is invariably lethal; our research
is especially targeted at this group of men.
“The next stage will see us further testing and developing newer generation drugs,” he says.
This
research was supported by National Institutes of Health, the American
Cancer Society, US Department of Defense Prostate Cancer Research
Program, Prostate Cancer Foundation of Australia, Masonic Cancer Center,
Ray and Shirl Norman Cancer Research Trust and Prostate Cancer
Foundation Australia.