Queen Mary University of London: Queen Mary University of London researchers join global Cancer Grand Challenges team taking on some of the most challenging forms of cancer
Dr Benjamin Werner, from London’s Barts Cancer Institute, and Dr Weini Huang, from the School of Mathematical Sciences, are part of the eDyNAmic team that will tackle the challenge of extrachromosomal DNA (ecDNA), a major driver of tumour evolution present in around a third of cancers.
Cancer Grand Challenges is a global funding platform that supports a global community of diverse, world-class research teams with awards of £20m to come together, think differently and take on cancer’s toughest challenges. It was founded by two of the largest funders in cancer research – Cancer Research UK and the National Cancer Institute in the US.
The challenge of ecDNA in cancer
The Cancer Grand Challenges eDyNAmiC team, led by Paul Mischel, MD, Stanford Medicine, will tackle the challenge of ecDNA – small, circular pieces of genetic information that enable cancer cells to rapidly evolve to become resistant to treatment. Present in around a third of cancers, ecDNA promotes aggressive tumour behaviour and leads to poorer outcomes for patients. The team hopes to unlock a deeper understanding of ecDNA, which could ultimately lead to new therapies for people with some of the hardest-to-treat types of cancer.
Dr Benjamin Werner, Lecturer and Group Leader at Queen Mary’s Barts Cancer Institute, said:
“We have now evidence that some of the most aggressive and difficult to treat cancers are driven by extrachromosomal DNA. We have to understand why and how we can turn this apparent selective advantage into a disadvantage.
It is extremely exciting to be part of such an international collaboration to take this challenge on, working alongside scientific giants in their respective fields.”
Dr Weini Huang, Senior Lecturer in Mathematical Biology at Queen Mary’s School of Mathematical Sciences, said:
“Tumours with ecDNA elements are one of biggest challenges for cancer patients. Understanding the basic mechanisms of the arising, spreading and progress of ecDNA in tumour initiation and following treatments is urgently needed, and requires joint efforts of experts across different fields.
Our team is truly diverse, with researchers working on genetics, epigenetics, cancer biology and theoretical biology. We have a very exciting opportunity to take on the challenge of ecDNA.”
Developing mathematical and computational methods to model ecDNA dynamics
As part of the project, Dr Werner and Dr Huang will be developing computational simulations and mathematical models to understand ecDNA dynamics in tumour progression and treatment resistance. With their collaborators, they will apply their theoretical work to experimental and clinical data in the hope of identifying new ways to target these mechanisms in cancer.
David Scott, PhD, Director of Cancer Grand Challenges, Cancer Research UK said:
“Cancer is a global issue that needs to be met with global collaboration. This investment in team science encourages diverse thinking to problems that have long hindered research progress.
“Cancer Grand Challenges provides the multidisciplinary teams the time, space and funding to foster innovation and a transformative approach. The eDyNAmiC team is one of four newly funded teams joining a scientific community addressing unmet clinical needs across cancer research.”