Smart algorithm finds possible future treatment for childhood cancer


Using a computer algorithm, scientists at IGP have identified a promising new treatment for neuroblastoma. This form of cancer in children, which occurs in specialised nerve cells in the sympathetic nervous system, may be life-threatening. In the long term the discovery, described in the latest issue of the scientific journal Nature Communications, may result in a new form of treatment for children in whom the disease is severe or at an advanced stage.

The new treatment is based on activating a receptor protein, CNR2 (cannabinoid receptor 2), in the nervous system. A highly unusual method enabled this particular protein to be applied therapeutically. Instead of using traditional methods of drug development, the research group has developed a new computer algorithm capable of combining massive quantities of genetic and pharmacological data (‘big data’) from European and American hospitals and universities. The algorithm then suggested new treatments that could influence the basic mechanisms of the disease.

“We were astonished when the algorithm came up with completely new ideas for treatment, such as CNR2, that no one has ever discussed in this context. So we decided to investigate this further in the lab,” says Sven Nelander, who has led the study.

The new treatments were investigated using cell samples from patients and in animal models, where they proved efficacious. The cancer cells’ survival rate declined, for example, and tumour growth in zebrafish (Danio rerio) decreased, following treatment with a substance that stimulates CNR2.

The researchers have also developed the computer algorithm to enable it to be applied to other forms of cancer.

“Smart algorithms will be increasingly important in cancer research in the years ahead, since they can help us scientists to find unexpected angles. We’ve already started a major project here in Uppsala, in which several types of cancer in children and adults will be investigated this way. Our hope is that this can result in more unexpected treatment options,” Nelander says.

The study was carried out in collaboration with researchers at Karolinska Institute, Lund University and Chalmers University of Technology

More information:
Article in Nature Communications
Sven Nelander’s research

Image showing zebrafish embryo with cancer cells in its nervous system.
The image shows a zebrafish embryo with cancer cells (green)
in its nervous system. The researchers used this type of animal
model to evaluate new treatments. Credit: Elin Almstedt