Brain Cancer Discovery Reveals Clues in Quest for New Therapies

The findings shed light on the mechanisms that underpin brain cancer progression and could eventually reveal targets for the development of much-needed therapies, researchers say.

Scientists conducted lab tests on tumor cells from patients with glioblastoma, a rare but aggressive type of brain cancer.

Previous studies have found that glioblastoma cells share similarities with normal brain stem cells, which give rise to the many different cell types in the brain during development.

The team identified two molecules that are produced at high levels by the cells – called FOXG1 and SOX2.

Similar levels of these molecules are found in brain stem cells and are a defining feature of these cells.

The researchers found that SOX2 drives glioblastoma cells to keep dividing, a hallmark of cancer.

FOXG1 stops the cells from responding to other signals that would usually point them towards becoming specialized, the team found.

Both FOXG1 and SOX2 work by controlling when key target genes are switched on and off by the cell.

The researchers analyzed which genes were affected and identified several factors that are involved in controlling cell division.

The insights could open the door to new therapies that stop or slow tumor growth, the researchers say.

Glioblastoma is a fast-growing type of brain tumor. There are few options for treatment and only one in five patients will survive more than one year after diagnosis.

The study was led by scientists at the Medical Research Council Centre for Regenerative Medicine at the University of Edinburgh. The research is published in Genes and Development and was funded by Cancer Research UK and the Wellcome Trust.

Lead researcher Dr. Steve Pollard, CRUK Senior Cancer Research Fellow at the University of Edinburgh, said: “Brain cancer cells seem to be hijacking important cell machinery that is used by normal brain stem cells. The tactic they appear to use is to produce high levels of these key regulators. This locks the tumor cells into perpetual cycles of growth and stops them listening to the signals that normally control cell specialization.”

Dr. Áine McCarthy, Cancer Research UK’s Senior Science Information Officer, said: “While survival for many types of cancer has improved dramatically, tackling brain tumors remains a challenge and we urgently need to develop new, kinder treatments.

“This research provides an exciting new insight into how two specific molecules might play a key role in driving the growth of glioblastoma tumors, the most common type of brain tumor. The next step will be for scientists to see if they can develop a way to stop glioblastoma cells from using these molecules as a way to survive and then to test it in clinical trials to see whether this affects tumor growth in people.”

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Jen Middleton, Press & PR Office, tel: 0131 650 6514, email Jen.Middleton@ed.ac.uk