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Study suggests way to attack deadly, untreatable nerve tumours

Genomic profiling of mostly untreatable and deadly nerve sheath tumours led scientists to test a possible therapeutic strategy that inhibited tumour growth in lab tests on human tumour cells and mouse models, according to research in the journal Cancer Cell.

When the international team of researchers analysed complete screens of genes and genetic material in malignant peripheral nerve sheath tumours (MPNSTs), it revealed previously unknown genetic information about the disease.

"This uncovered potential therapeutic targets we did not expect for these untreatable tumours, but our findings also need further study before knowing whether they will be relevant to patient treatment in the clinic," said Q. Richard Lu, PhD, lead author and scientific director of the Brain Tumour Center at the Cincinnati Children's Cancer and Blood Diseases Institute.

Researchers show a gene called Lats1/2 suppresses cancer, and losing the gene's expression reprograms cells so they rapidly expand and become cancerous.

Loss of Lats1/2 also causes other genes in the HIPPO signalling pathway (which controls tissue growth) to become hyperactive.

These hyperactive genes and their associated proteins (TAZ and YAP) then work with the protein TEAD1 to activate molecular cancer programs that form MPNSTs.

When researchers disrupted overactive TAZ-YAP in mice bred to lack Lats1/2, they also blocked signalling from PDGF (platelet-derived growth factor receptor), which supports tissue growth.

These steps reduced the size and number of MPNSTs in the mice.

They also inhibited the growth of human MPNST cells in laboratory cultures.

In their future work, Lu and his colleagues want to identify small-molecule agents that will inhibit TAZ-YAP and the downstream cancer programs they activate, he said.

The researchers also need to identify druggable locations on the surface of MPNST cells or HIPPO signalling cascade inside cells.

This would allow small molecular inhibitors to attach to and attack the tumour cells.

MPNST's develop in what are called Schwann cells.

These cells form the myelin sheath.

The myelin sheath functions as a protective insulation around peripheral nerves, which connect the brain and spinal cord to extremities and organs and promote transmission of nerve impulses.

About half of MPNSTs are linked to mutation of the NF1 gene, which causes a condition called Neurofibromatosis 1, researchers say.

The other half of MPNSTs have no known genetic origins, and a small proportion of cases can be caused by radiotherapy given to people for cancer treatment, according to the authors.

The NF1 gene normally helps control a balanced rate of cell growth.

When it mutates, it can cause brown spots on a person or benign tumours along peripheral nerves.

In some cases, NF1 mutation can lead to cases of runaway cell growth, creating very large and sometimes medically problematic plexiform tumours which can turn into MPNSTs.

MPNSTs are biologically aggressive tumours and resistant to treatments like chemo and radiation therapy.

They're also known for high relapse rates and poor prognosis, often leading to death.

Source: Cincinnati Children's Hospital Medical Center

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