Identify and target tumour cells that remain dormant for many years after seemingly effective treatment
Cancer Grand Challenges is a global funding platform supporting scientists to take on the toughest challenges in cancer. Through a series of £20 ($25) million awards, we are giving international teams of researchers the freedom to think differently, act creatively and explore novel techniques.
Sometimes, patients who seem to have been successfully treated for cancer can have the disease come back years or even decades later, often without any warning.
It’s believed that cancer cells that weren’t killed by initial treatment can go to sleep, lying dormant before a new chance to grow kicks in. But what causes some cancer cells to go sleep, or where they hide when they’re asleep, is unknown. Scientists also don’t know for sure what wakes these cells up years later.
This Cancer Grand Challenge aims to shed light these unknowns. This could lead to new ways to find these cells and eliminate them. Or, if we could predict when they’re about to rise from their slumber, keep them sleeping permanently.
In a sentence: Understand how some cancers come back many years after treatment
Although some cancers are cured with current therapies, others such as melanoma, breast and prostate cancers can recur many years or even decades after seemingly effective treatment has ended. This phenomenon of tumour dormancy has been recognised for many years but remains relatively poorly understood. It is not clear for example what enables cells to remain in a dormant state, what mechanisms trigger recurrence, or why these residual tumour cells cannot be eliminated.
Only recently have single-cell sequencing technologies allowed for the identification and characterisation of small numbers of residual cancer cells. The ability to identify and characterise tumour cells in the dormant state remains a major challenge, but would facilitate further mechanistic understanding of this process, enabling us to develop ways to effectively target dormant tumour cells.
OPPORTUNITIES AND BARRIERS
This Cancer Grand Challenge specifically relates to the study of dormant cells that exist after seemingly successful treatment (i.e. following a latent period where the patient displays no clinical symptoms). This is distinct from the investigation of indolent cells that may persist for an extended period of time before progressing to malignancy, or cancers (such as chronic myeloid leukaemia) that remain ‘dormant’ whilst on treatment but recur when therapy is withheld.
In addressing this challenge, teams will need to first overcome the current barrier of how to identify, detect and study dormant cells. It is anticipated that this challenge will require consideration of both tumour intrinsic and extrinsic factors in order to understand how dormant cells and/or their behaviour can be effectively targeted. Importantly, findings from relevant experimental models will ultimately also need to be validated in patients.
Examples of the types of questions that could be addressed in this challenge include (but are not limited to):
- Can methods be developed to detect and isolate dormant cells; for example using rapid autopsy studies to isolate dormant cells from tissues that would otherwise be inaccessible?
- Is it possible to develop preclinical models that accurately reflect tumour dormancy in patients and provide novel insights into how dormancy is regulated?
- By understanding the mechanisms regulating tumour dormancy, can we develop approaches to eradicate dormant cells, or prevent their re-emergence?
VISION AND IMPACT
The goal of this Cancer Grand Challenge is to develop innovative approaches to accurately detect and study dormant tumour cells. It is envisaged that further biological understanding of the mechanisms that control dormancy in patients will result in new strategies to eliminate persistent or dormant cells, prolong dormancy and/or the identification of risk factors or markers of cancer recurrence either at primary or secondary sites.
Who can apply to Cancer Grand Challenges?
Cancer Grand Challenges is looking for the best ideas and the sharpest minds to transform cancer research.
We welcome applications from:
Academic institutions and their commercial partners
Our current funded teams span 9 countries and a wide range of disciplines including analytical chemistry, cell biology and virtual reality.
The Scientific Committee
The Cancer Grand Challenges Scientific Committee provide input throughout the funding process, from setting the challenge and assessing applications to funding decisions and beyond.