image: Dr Elizabeth Roundhill, University of Leeds view more
Credit: Unviersity of Leeds
New research has revealed a way to help identify which patients with an aggressive type of bone cancer are least likely to be cured by current standard treatment.
For around one in three patients diagnosed with Ewing sarcoma in just one part of the body – known as localised cancer - current treatments are ineffective. The new research, funded by the Bone Cancer Research Trust and the Ewing’s Sarcoma Research Trust, opens up the possibility of offering these patients additional treatment that could increase their chance of survival.
The research team from the University of Leeds were able to identify the particular cancer cells – known as cancer stem-like cells – in Ewing sarcoma that are resistant to chemotherapy and responsible for recurrence of the disease. In the laboratory, the researchers found a protein called neurexin-1 at much higher levels in the cancer stem-like cells.
They then looked at survival data. Patients whose tumours had higher levels of this protein were more likely to see the disease return and less likely to survive.
In Ewing sarcoma, chemotherapy, radiotherapy and surgery increase long term survival in between 55 and 65% of patients who are diagnosed with localised cancer. However, the other patients see their disease progress and suffer a relapse. For these patients, the outcomes are as poor as those diagnosed when the cancer has already spread.
Lead researcher Professor Sue Burchill, from the University of Leeds’ School of Medicine, believes these patients could benefit from additional treatment. She says:
“The initial clinical impact from this research is the ability to identify those patients with localised disease who experience the poor outcomes normally associated with patients who have disease in multiple parts of the body. If doctors can use high levels of neurexin-1 to identify these patients at an early stage and treat them with a stronger combination of drugs, this could increase survival for some patients.”
Working with surgeons from the Royal Orthopaedic Hospital in Birmingham and the Translational and Clinical Research Institute at the University of Newcastle, the team were able to use samples of tumour tissue from Ewing sarcoma patients and grow the cells in the laboratory.
Dr Elizabeth Roundhill, Research Fellow at the University of Leeds, explained: “Tumours are a mix of different cells which interact with each other and with cells of the surrounding environment to grow and spread. However, cancer stem-like cells are different: they can divide and multiply independently of other cells in the tumour and can initiate new tumour spread and growth. These are the particularly dangerous cells we wanted to find.”
From each sample, the team took approximately 1000 single cells to identify those that were able to grow and were resistant to current chemotherapy. Using state-of-the-art RNA sequencing, the researchers were able to see that neurexin-1 was expressed at high levels in these cancer stem-like cells.
The team are already working with colleagues in Spain, Italy and Switzerland on a large study comparing neurexin-1 with other possible markers, to validate the best way to identify patients who need treatment that is more intensive. They hope to have the results of this study later this year. If the study confirms their findings, the next stage would be to use neurexin-1 to select patients for treatment in a clinical trial.
Dr Zoe Davison, Head of Research, Information and Support at the Bone Cancer Research Trust, says: “This research marks an incredibly significant find in understanding and predicting which patients may not respond to the standard chemotherapy treatment for Ewing sarcoma. By understanding this, it may lead to new and more effective ways to treat these patients. We are delighted that we have been able to fund this vital work on multiple occasions, which demonstrates the importance of consistent funding to enable research to progress and succeed.”
The study is published in Cellular Oncology.
Ends
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Notes to editors:
The paper, titled RNA sequencing and functional studies of patient-derived cells reveal neurexin-1 and regulators of this pathway are associated with poor outcomes in Ewing sarcoma is available here: https://link.springer.com/content/pdf/10.1007/s13402-021-00619-8.pdf
About the Bone Cancer Research Trust
The Bone Cancer Research Trust was established in 2006 and is now the leading charity dedicated to fighting primary bone cancer.
The charity’s mission is to save lives and improve outcomes for people affected by primary bone cancer through research, information, awareness and support.
The Bone Cancer Research Trust provide a free Support and Information Service for anyone affected by primary bone cancer and bone tumours. Call: 0800 111 4855 or email: support@bcrt.org.uk
For more information, visit www.bcrt.org.uk
University of Leeds
The University of Leeds is one of the largest higher education institutions in the UK, with more than 38,000 students from more than 150 different countries, and a member of the Russell Group of research-intensive universities. The University plays a significant role in the Turing, Rosalind Franklin and Royce Institutes.
We are a top ten university for research and impact power in the UK, according to the 2014 Research Excellence Framework, and are in the top 100 of the QS World University Rankings 2021.
The University was awarded a Gold rating by the Government’s Teaching Excellence Framework in 2017, recognising its ‘consistently outstanding’ teaching and learning provision. Twenty-six of our academics have been awarded National Teaching Fellowships – more than any other institution in England, Northern Ireland and Wales – reflecting the excellence of our teaching. www.leeds.ac.uk
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About Ewing sarcoma
Ewing sarcoma is a rare cancer that can form in bone in 85% of cases and soft tissue. There are fewer than 100 cases of Ewing sarcoma diagnosed in the UK and Ireland each year. Survival rates have remained unchanged for over 30 years.
Ewing sarcoma accounts for approximately 15% of primary bone tumours. Approximately 80% of patients are younger than 20 years of age, and presentation after the age of 30 is very rare. Ewing sarcoma affects more males than females (ratio 1.4:1).
Survival varies significantly according to tumour site. Five-year survival for central tumours and tumours of the extremities are 40% and 60%, respectively.
At the time of diagnosis 25% of patients present with metastatic disease in different parts of their body including the lungs.
Although these patients receive a complex cocktail of drugs in combination with surgery and radiotherapy, outcomes remain one of the worst of all cancers; less than 1 in 6 will survive 5 years after diagnosis. For patients diagnosed with localised disease in a single area of the body outcomes are better; up to 70% will survive beyond 5 years. However, around 1 in 3 of these patients will develop widespread disease and experience the poor outcome typically associated with metastatic patients.
For more information, visit www.bcrt.org.uk/information
Journal
Cellular Oncology
Article Title
RNA sequencing and functional studies of patient-derived cells reveal that neurexin-1 and regulators of this pathway are associated with poor outcomes in Ewing sarcoma