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NIH scientists map genetic changes that drive tumors in a common pediatric soft-tissue cancer
Scientists have mapped the genetic changes that drive tumors in rhabdomyosarcoma, a pediatric soft-tissue cancer, and found that the disease is characterized by two distinct genotypes. The genetic alterations identified in this malignancy could be useful in developing targeted diagnostic tools and treatments for children with the disease. The study, by researchers at the National Cancer Institute (NCI), part of the National Institutes of Health, and their colleagues, appeared in the Jan. 23, 2014, issue of the journal Cancer Discovery.
Rhabdomyosarcoma is the most common soft-tissue sarcoma in children and affects muscles in any part of the body. Among patients diagnosed with non-metastasized disease, about 80 percent survive at least five years, although they may experience substantial treatment-related toxic effects. However, for those with metastatic disease, the five-year survival rate is about 30 percent even with aggressive treatment.
NCI’s effort to characterize the genetic events that contribute to rhabdomyosarcoma was led by Javed Khan, M.D., head of the Oncogenomics Section, Pediatric Oncology Branch, Center for Cancer Research, and Jack Shern, M.D., a clinical fellow.
“These studies are very difficult to do because tissue acquisition and validation is so complex,” said Khan. “It must be noted therefore that this work would not have been possible without our brave pediatric patients and their families. In the face of their life-threatening disease, they offered their tumors for study knowing that they would not personally benefit from this work but in the hope that investigators might learn lessons that would help children diagnosed with rhabdomyosarcoma in the future.”
Khan’s team used a number of advanced sequencing techniques to investigate the genetic changes in a total of 147 rhabdomyosarcoma tumors which were paired with normal tissue samples. These sequencing tools allowed them to unravel the complex molecular events that occur in tumor cells, compare normal DNA with tumor DNA, identify mutations in genes, and determine exactly which genes are turned on (activated) or turned off (deactivated), leading to progression of this cancer.
Through their studies, they identified two distinct genotypes of rhabdomyosarcoma tumors. The first genotype is characterized by either a PAX3 or PAX7 fusion gene; a fusion gene is a gene made by joining parts of two different genes. The second genotype lacks a PAX fusion gene but harbors mutations in key signaling pathways; a signaling pathway is a group of proteins that work together to regulate one or more cell functions, such as cell division or cell death.
The researchers also found that, as in other types of pediatric cancers, the overall number of alterations in tumor DNA that develop over the children’s lifespan (known as somatic mutations) were relatively low compared to DNA alterations that children were born with. The somatic mutation rate was especially low in tumors with a PAX fusion gene. Nevertheless, they did find relatively frequent somatic mutations in several genes, including NRAS, KRAS, HRAS, FGFR4, PIK3CA, CTNNB, all of which had previously been found to be mutated in rhabdomyosarcoma, as well as the genes FBXW7 and BCOR, which had not been previously associated with this disease.
Moreover, they identified mutations in additional genes in the RAS/PIK3CAsignaling pathway. Overall, alterations in this pathway were found in 93 percent of rhabdomyosarcoma tumors. Intriguingly, many of the genes mutated in the tumors that did not have a PAX fusion gene were found to be turned on or off by proteins produced by PAX fusion genes.
“Although more work is needed, our study may provide researchers with the rationale to develop genomics-guided therapeutic interventions with greater efficacy and fewer side effects than the treatments options currently available for pediatric patients with rhabdomyosarcoma,” Shern said.
Building on this research, Khan and his team will design and test interventions that target the genetic drivers identified in this genomic analysis of rhabdomyosarcoma.
This research was a collaboration that included the Children’s Oncology Group (which collected and banked the majority of the patient tumor samples used in the study) and the Broad Institute of the Massachusetts Institute of Technology and Harvard University, Cambridge, Mass. (which provided additional patient tumor samples and bioinformatics support).
NCI has a diverse genomic portfolio, including The Cancer Genome Atlas (TCGA) program which is supported by both NCI and another institute at NIH, the National Human Genome Research Institute. For more information on TCGA and the tumors that are being analyzed, please go to http://cancergenome.nih.gov.
The National Cancer Institute (NCI) leads the National Cancer Program and the NIH effort to dramatically reduce the prevalence of cancer and improve the lives of cancer patients and their families, through research into prevention and cancer biology, the development of new interventions, and the training and mentoring of new researchers. For more information about cancer, please visit the NCI website at http://www.cancer.gov or call NCI's Cancer Information Service at 1-800-4-CANCER (1-800-422-6237).
About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visitwww.nih.gov.
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Shern J F et al. Comprehensive genomic analysis of rhabdomyosarcoma reveals a landscape of alterations affecting a common genetic axis in fusion-positive and fusion-negative tumors. Cancer Discovery. January 23, 2014. DOI: 10.1158/2159-8290.CD-13-0639.
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