Scientists have developed a new strategy to overcome drug-resistant neuroblastoma, one of the deadliest forms of childhood cancer.
Scientists have developed a new strategy to overcome drug-resistant neuroblastoma, one of the deadliest forms of childhood cancer. Researchers at The Institute of Cancer Research in London have found a way to overcome the resistance of cancer cells to a drug called crizotinib, which recently showed positive early results in its first trial in children with cancer.
Crizotinib has already been licensed by the US Food and Drug Administration for use in adult cancers, but early experience suggests tumors eventually stop responding to treatment, after developing additional mutations in the ALK gene targeted by the drug.
The paper, led by The Institute of Cancer Research in collaboration with the Dana-Farber Cancer Institute and Children's Hospital in Boston, publishes this week in the prestigious journal Cancer Cell. The study received funding from a variety of sources including The Neuroblastoma Society, Cancer Research UK, Sparks, the children's medical research charity and The Rooney Foundation.
In the study, scientists detailed their new strategy of combining crizotinib with a second class of drugs – mTOR inhibitors – to knock out the resistance of cancer cells.
Scientists identified the strategy after revealing for the first time the role played by the ALK cancer-causing gene in driving neuroblastoma, which accounts for 15 per cent of all the UK's childhood cancer deaths.
Neuroblastomas are cancers of the developing nervous system, and new drug combinations are desperately needed as aggressive forms of the disease are very difficult to treat with conventional chemotherapy.
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"We hope that our work will benefit children with neuroblastoma by increasing the effectiveness of crizotinib. Our study may also have relevance for adult patients with ALK-driven lung cancer and lymphoma who develop resistance to crizotinib, because loss of treatment response in these patients correlates with the development of point mutations in the tyrosine kinase domain of ALK. In children with neuroblastoma these point mutations are in fact the most common primary somatic changes that we see in ALK, so we hope our work with a pediatric cancer will in this case help to unravel resistance mechanisms in adult cancer as well."
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The team therefore set out to investigate how a common ALK mutation, ALKF1174L, and alterations in MYCN interact to drive the onset of neuroblastomas, and also to attempt to find a way to overcome resistance to crizotinib.
They found that the ALKF1174L mutation and changes in MYCN cause more aggressive, crizotinib-resistant neuroblastoma, by turning on the PI3K/AKT/mTOR pathway. This pathway has been implicated in the development of neuroblastoma and many adult cancer types, and has been an intense focus of drug-development in adult cancer.
The team found that combining an mTOR inhibitor with crizotinib prevented the growth of neuroblastoma by simultaneously inhibiting MYCN and ALK, overcoming the resistance of these tumors to treatment with crizotinib alone. As well as delivering a strategy to overcome crizotinib resistance in general, this work highlights a treatment approach that may be effective for patients with aggressive neuroblastoma who carry both genetic changes at diagnosis.
Source-Eurekalert