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Cancer
Mayo Clinic Study Finds Chromosomal Rearrangements Help Distinguish Between Independent Primary Tumors and Metastasis
ROCHESTER, Minn. — A diagnostic test based on chromosomal rearrangements can trace the lineage of lung cancer to determine whether two separate lung cancers in the same patient are independent tumors or a tumor that has spread to another region of the lung, a Mayo Clinic study has found. For patients with multiple tumors, that distinction could mean the difference between early stage cancer that may be cured by surgery and incurable late-stage disease. The research is published this week in the Journal of Clinical Oncology.
“Unfortunately, distinguishing between independent primary tumors and metastasis is a frequent dilemma for pathologists” says Marie-Christine Aubry, M.D., a Mayo Clinic pathologist and co-principal author of the study. “We need better tests to help the clinician match the treatment approach to the patient’s individual needs.”
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Currently, “clinicians often end up working with inexact, imperfect information to make potentially life-altering decisions for how we treat our patients,” says Dennis Wigle, M.D., Ph.D., a thoracic surgeon and senior author of the study. “Now we have a test that may be able to tell us whether we are dealing with independent primary tumors or metastatic disease.”
As many as 1 in 5 lung cancer patients are diagnosed with multiple tumors, Dr. Wigle says. Currently, pathologists can only use comparative morphology to determine whether two tumors are independent primaries or intrapulmonary metastasis. For example, if pathology results from two tumors show that one lesion is a squamous cell carcinoma and the other is an adenocarcinoma, then it is clear they are not related. But if both lesions are found to be adenocarcinomas, the accuracy of such determination drops. Clinicians are then left with their best clinical judgment, to help determine whether those tumors represent early stage or advanced, incurable cancer.
With the advent of DNA sequencing and other more sophisticated molecular tools, researchers can see beyond clinical features and pathology results to appreciate the genomic alterations that make each cancer unique. Among the most prominent of these abnormalities are chromosomal rearrangements, chunks of genome that have detached and reattached again to bring a new order to the genetic code, says Steven Murphy, Ph.D. a molecular biologist and one of lead authors of the study.
Some rearrangements — such as those fusing the EML4 and ALK genes to create the EML4-ALK oncogene — commonly occur in lung tumors. Though the same genes might end up juxtaposed next to each other over and over again, the exact property lines that connect those new neighbors are almost never the same from one cancer patient to the next.
George Vasmatzis, Ph.D., director of the Biomarker Discovery Program in the Mayo Clinic Center for Individualized Medicine, and his colleagues began to wonder whether the unique nature of these rearrangements could be used to identify whether or not two cancers were related. To test this approach, they used a special form of sequencing called mate-pair next generation sequencing to identify chromosomal rearrangements in 41 tumor samples.
First, pathologists looked at lung tumors that, based on different histologic subtype results, were predicted to be independent primary tumors. They found that those tumors did not share any genomic rearrangements. Next, they looked at primary lung tumors and paired distant metastasis that they thought would be related. They found shared identical rearrangements in all those cases.
This discovery was then applied to additional lung tumors of similar histologic subtype. Once again, pathologists determined whether these tumors were likely independent primary tumors or intrapulmonary metastasis. The pathologists agreed 82% of the time. The correlation between the pathologist’s agreement and the presence or absence of shared identical rearrangements was perfect and the additional genomic data allowed for a definitive answer when the clinical or pathologic data could not.
“It is not definitive in terms of a test that we can roll out to clinical practice tomorrow, but it does show proof of principle,” says Dr. Wigle. “We need to expand this study to analyze more tumor samples and get more data on the sensitivity and specificity of this test. Then we will need to explore how we can make this test a part of standard diagnostic testing and finally assess how it will impact clinical care. Hopefully this test will provide an inroad for clinicians faced with scenarios where they don’t know what course of action is best for their patients.”
Co-authors include Faye Harris, Geoffrey Halling, Sarah Johnson, Simone Terra, M.D., Travis Drucker, Michael Asiedu, Ph.D., Benjamin Kipp, Ph.D., Eunhee Yi, M.D., Tobias Peikert, M.D., and Ping Yang, M.D., Ph.D., all of Mayo Clinic.
The Mayo Clinic Center for Individualized Medicine funded the study.
About the Mayo Clinic Center for Individualized Medicine
The Mayo Clinic Center for Individualized Medicine is home to the Individualized Medicine Clinic, the world’s first integrated, multidisciplinary genomics clinic, serving patients with advanced cancer and diagnostic dilemmas. The center discovers and integrates the latest in genomic, molecular and clinical sciences into personalized care for each Mayo Clinic patient. Visit http://mayoresearch.mayo.edu/mayo/research/center-for-individualized-medicine/ for more information.
About Mayo Clinic Cancer Center
As a leading institution funded by the National Cancer Institute, Mayo Clinic Cancer Center conducts basic, clinical and population science research, translating discoveries into improved methods for prevention, diagnosis, prognosis and therapy. For information on cancer clinical trials, call 1-855-776-0015 toll-free.
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About Mayo Clinic
Mayo Clinic is a nonprofit worldwide leader in medical care, research and education for people from all walks of life. For more information, visit MayoClinic.com or MayoClinic.org/news.