New gene-sequencing tools offer clues to highest-risk form of a childhood cancer

2 gene mutations I.D.'d in neuroblastoma, says researcher from the Children's Hospital of Philadelphia

Using powerful gene-analysis tools, researchers have discovered mutations in two related genes, ARID1A and ARID1B, that are involved in the most aggressive form of the childhood cancer neuroblastoma. While these findings do not immediately improve clinical treatments, they identify a novel pathway that is defective in these cancers, a pathway that scientists can now study to develop potential new therapies.

“These gene alterations were not previously known to be mutated in neuroblastoma, and they may significantly advance our knowledge of the underlying biological pathways that drive this disease,” said study leader Michael D. Hogarty, M.D., a pediatric oncologist at The Children's Hospital of Philadelphia. “These two genes function in a group of genes that seems to play an important role in neural cell behavior, and we will now work to discover if this insight may open up new treatments for children with tumors having these mutations.”

Hogarty, along with Victor Velculescu, M.D., Ph.D., of the Johns Hopkins Kimmel Cancer Center, co-led the study that appeared today in Nature Genetics.

The scientists received over $1 million in funding from the St. Baldrick's Foundation, a volunteer-driven and donor-centered charity dedicated to raising money for childhood cancer research.

The current study employed sophisticated next-generation sequencing technology that identified the entire DNA sequence for a set of neuroblastoma tumors. “When this project started, it was the first of its kind to focus on a childhood tumor,” said Hogarty. “This is important, because cataloguing all the DNA mutations in neuroblastoma, or any tumor, will allow us to better understand the enemy, and ultimately to make better treatment decisions.”

Striking the peripheral nervous system, neuroblastoma usually appears as a solid tumor in the chest or abdomen of young children. It accounts for 7 percent of all childhood cancers, but 10 to 15 percent of all childhood cancer-related deaths.

In the current study, Hogarty and colleagues identified alterations in two genes, ARID1A and ARID1B, neither of which had previously been reported to be involved in neuroblastoma. Both genes are thought to affect chromatin, a combination of DNA and protein that regulates the activities of genes and ultimately controls the behavior of a cell. During normal development, neural cells switch from a primitive, rapidly dividing state (neuroblasts) into a more differentiated, or mature state (neurons).

However, said Hogarty, mutations in ARID1A and ARID1B may prevent this orderly transition, keeping the neural cells in the uncontrolled stage of growth that becomes a cancerous tumor. “Unfortunately, children with these mutations have a particularly aggressive, treatment-resistant form of neuroblastoma,” he added. The current study found that ARID1A and ARID1B mutations occur in 5 to 15 percent of high-risk neuroblastomas, but the pathway these genes affect may have a broader role in the disease—a possibility that Hogarty and colleagues plan to investigate further. It is possible that children having tumors with these mutations will receive more aggressive or more experimental treatments in the future.

Ultimately, said Hogarty, studies of the pathway affected by these genes may lay the foundation for future targeted therapies aimed at this pathway.

In the current study, the scientists also developed an approach that detects the tumor DNA abnormalities in the blood. “All tumors harbor genetic mistakes that leave a fingerprint in the DNA, and tumor DNA is often detected in the blood as well,” he explained. “We may be able to develop a blood test, personalized to each cancer patient, to detect their tumor fingerprint in circulating blood DNA. This would permit oncologists to more accurately monitor patients for treatment response and recurrence, and offer a tool to help guide treatment decisions.”

In addition to funding from St. Baldrick's, this study also received support from the National Institutes of Health (grant CA121113), the Children's Oncology Group, the Virginia and D.K. Ludwig Fund for Cancer Research, Swim Across America, and the AACR Stand Up to Cancer-Dream Team Translational Cancer Research Grant.

“Integrated genomic analyses identify ARID1A and ARID1B alterations in the childhood cancer neuroblastoma,” Nature Genetics, advance online publication, Dec. 2, 2012. doi: 10.1038/ng.2493

About The Children's Hospital of Philadelphia: The Children's Hospital of Philadelphia was founded in 1855 as the nation's first pediatric hospital. Through its long-standing commitment to providing exceptional patient care, training new generations of pediatric healthcare professionals and pioneering major research initiatives, Children's Hospital has fostered many discoveries that have benefited children worldwide. Its pediatric research program is among the largest in the country, ranking third in National Institutes of Health funding. In addition, its unique family-centered care and public service programs have brought the 516-bed hospital recognition as a leading advocate for children and adolescents. For more information, visit http://www.chop.edu.

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