University of Sheffield Researchers Develop New Immunotherapy to Delay Resistance in Prostate Cancer
A new form of immunotherapy using innovative nanoparticles can delay resistance to hormone therapy and help men with prostate cancer live longer.
Researchers from the University of Sheffield have today published findings from a Prostate Cancer UK-funded study, which shows a new form of immunotherapy could give men much more time before their cancer becomes resistant to hormone therapy.
For thousands of men diagnosed with prostate cancer, androgen deprivation therapy (ADT) is a powerful first-line treatment. Although initially effective in limiting the growth and spread of cancer, in some men their tumours develop resistance to this treatment, so their cancer spreads further throughout the body, becoming incurable.
Immunotherapy has had huge success in other cancers – offering long-term cures for previously untreatable cancers. However, this success has not translated to prostate cancer, and a huge focus of research has been to understand why.
The team used cutting edge-techniques to study how immune cells function within prostate tumours, especially after ADT, leading to the development of an entirely new way to deliver immunotherapy. Published in the Journal for Immunotherapy of Cancer, their study is the first to show that carefully designed nanoparticles can be used to stimulate immune cells called T cells to attack cancer cells. They found that this markedly delays the onset of resistance to ADT.
Professor Claire Lewis, from the University of Sheffield’s, School of Medicine and Population Health who led the study, said: “The onset of resistance to hormone therapy is a major clinical problem when it comes to treating men with prostate cancer as their tumours then start to regrow and spread. Once this happens, their disease is difficult to treat and harsher treatments like chemotherapy have to be used.
“Until now, immunotherapies for prostate cancer have been disappointing, with few men responding well to treatment. Carefully analysing the way that immune cells in prostate tumours are inhibited by hormone treatment helped us to develop a way to overcome this,and prevent resistance to hormone therapy.
“We’re excited by the potential of this new form of immunotherapy to enhance the response of prostate tumours to hormone treatment. We are now working with our clinical colleagues to explore ways to take this forward into clinical trials as soon as possible.”
Through their analysis, the research team discovered that a type of white blood cell called a macrophage accumulates in large numbers around blood vessels in prostate tumours during ADT. They then developed a way of using novel nanoparticles to selectively deliver a drug to these cells that makes the macrophages express a potent immunostimulant called interferon-beta. When this is released inside tumours, it stimulates other immune cells called T cells to kill cancer cells and this delays treatment resistance.
Dr Hayley Luxton, Research Impact Manager at Prostate Cancer UK, who funded the study, said: “Over 12,000 men die from prostate cancer each year in the UK, and we desperately need new and more effective treatments.
“Immunotherapy has completely changed the way other cancers are treated, but we haven’t yet seen anything even close to that success for men with prostate cancer.
“We’re thrilled to have funded this research which shows a new form of immunotherapy can give men much more time before their cancer becomes resistant to hormone therapy.
“It will be really exciting to see how it performs in future clinical trials, and we hope it will play a pivotal role in finally unlocking the potential of immunotherapy for men with prostate cancer.”
The study was funded as part of Prostate Cancer UK’s Research Innovation Awards programme, which has seen £20m invested in exciting new research over the last 10 years.
This research supports the University of Sheffield’s cancer research strategy. Through the strategy, the University aims to prevent cancer-related deaths by undertaking high quality research, leading to more effective treatments, as well as methods to better prevent and detect cancer and improve quality of life.