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Sweeping view of prostate cancer genome yields deep insights

Using whole genome sequencing and multiple tumor samples, researchers uncover genes tied to prostate cancer growth

2011-02-10
(Press-News.org) NEW YORK, CAMBRIDGE, Mass., AND BOSTON (Feb. 9, 2011) -- For the first time, researchers have laid bare the full genetic blueprint of multiple prostate tumors, uncovering alterations that have never before been detected and offering a deep view of the genetic missteps that underlie the disease. The study, made possible by key advances in whole genome sequencing and analysis, points to several new prostate cancer genes and a critical category of genomic changes as important drivers of prostate cancer growth. The work was led by researchers from Weill Cornell Medical College, the Broad Institute, and the Dana-Farber Cancer Institute and appears in the Feb. 10th issue of the journal Nature.

Unlike other sequencing methods that target specific sections of the genome, whole genome sequencing enables researchers to look across the entire DNA landscape of a tumor, making it possible to discern global changes and patterns. Senior authors Drs. Levi Garraway and Mark Rubin and their colleagues used this strategy to view the complete genomes of seven prostate tumors and compare them to normal tissue samples to find regions of abnormality.

"Whole genome sequencing gives us fascinating new insights into a category of alterations that may be especially important in prostate cancer," says Dr. Garraway, a senior associate member of the Broad Institute and a medical oncologist and assistant professor at the Dana-Farber and Harvard Medical School.

Prostate cancer is the second most lethal cancer in American men, responsible for more than 30,000 deaths and more than 200,000 new cases each year. A major goal of prostate cancer research is to identify potential drug targets as well as genetic characteristics within tumors that could distinguish indolent and aggressive forms of the disease, and ultimately improve diagnostics and treatment.

Dr. Rubin, the Homer T. Hirst Professor of Oncology in Pathology and vice chair for experimental pathology at Weill Cornell Medical College, compares the Nature study to looking not just for spelling errors in the genome, but also for whole paragraphs or sections of genomic text that have been rearranged. "One of the big surprises is the fact that prostate cancer doesn't have a large number of misspellings, but instead has a large, significant number of rearrangements," says Dr. Rubin, who is also a pathologist at NewYork-Presbyterian Hospital/Weill Cornell Medical Center. "We would never have guessed that there were so many genomic alterations of this type before now because we didn't have the right tools to look for them."

These alterations are known as genomic rearrangements -- a kind of shuffling that occurs when a piece of DNA from one part of the genome breaks off and reattaches itself in another location. These rearrangements can create new genes (called "fusion genes"), allow a gene to operate unchecked, or prevent a gene from even working at all. Such changes can set a cell on a path toward cancer. By looking for genes affected by these rearrangements in multiple prostate cancer samples, the researchers unearthed new genes tied to the disease and found new mechanisms that may be driving cancer as a whole. The prostate cancer samples were provided by Dr. Ashutosh Tewari, the Ronald P. Lynch Professor of Urologic Oncology and professor of urology and public health at Weill Cornell Medical College and a robotic urologic surgeon and director of the LeFrak Center for Robotic Surgery at NewYork-Presbyterian/Weill Cornell.

"This first whole genome view shows us tantalizing evidence for several new prostate cancer genes that likely would have remained undiscovered had we not been taking a genome-wide approach," says Dr. Garraway.

Several tumors contained rearrangements disrupting the gene that codes for the protein CADM2, part of a family of proteins that prevent tumors from forming (known as "tumor suppressors"). Three samples also contained mutations involving members of the heat shock protein family, molecules that play an important, protective role and keep proteins from losing their proper shape. Anti-cancer drugs that inhibit these proteins are currently in clinical trials, but it is not yet clear whether prostate cancers will be vulnerable to such drugs.

Other recurring genomic rearrangements involve the genes PTEN and MAGI2. PTEN is a well-known tumor suppressor gene and MAGI2 appears to be its helpmate; mutations to one or both genes may set cells on the path toward becoming cancerous. Drugs that inhibit the pathway these genes influence are also being developed, raising the possibility that the drugs could be applied to prostate cancer.

In addition to uncovering new and suspected genes, whole genome sequencing has also given Drs. Garraway, Rubin and their colleagues insights into how genomic rearrangements arise in the first place. With a catalog of rearrangements in hand, the researchers looked for where breaks and reattachments tended to occur and found that these events are not distributed randomly across the genome. Rather, in some tumors these events tend to take place in areas of the genome that are inactive or silent, while in other tumors they occur in regions that are highly active. This pattern suggests that mistakes made by cells while turning genes on and off might give rise to DNA rearrangements and therefore play a formative role in cancer's development.

The researchers' findings may also provide a key starting point for the development of new diagnostic tools for prostate cancer. Currently, when patients are diagnosed with prostate cancer, it is almost impossible for doctors to determine if the disease will advance quickly and therefore require aggressive treatment, or whether the tumors will remain slow-growing, necessitating a wait-and-see approach. "This study could enhance our ability to develop new, diagnostic markers for prostate cancer," says Dr. Rubin. "We can also imagine eventually developing more personalized diagnostic tools for patients with recurrent tumors, to essentially follow the tumors' progression by testing for new genomic alterations."

Although the researchers' findings need to be studied further and extended to larger numbers of tumor samples, this initial analysis has opened up many new avenues of investigation, underscoring the power of applying whole genome sequencing to cancer.

"Many of these features were invisible before," says Dr. Garraway. "Now, we're realizing that by sequencing whole genomes in prostate cancer, there's a lot more to see. These discoveries are teaching us a great deal about prostate cancer biology that we simply hadn't appreciated previously."

### Co-authors of the study include Dr. Francesca Demichelis (lead author), Raquel Esgueva, Kyung Park, Dorothee Pflueger, Naoki Kitabayashi, and Theresa Y. MacDonald from Weill Cornell; Michael F. Berger (lead author), Michael S. Lawrence (lead author), Kristian Cibulskis, Andrey Y. Sivachenko, Carrie Sougnez, Robert Onofrio, Scott L. Carter, Lukas Habegger, Lauren Ambrogio, Timothy Fennell, Melissa Parkin, Gordon Saksena, Douglas Voet, Alex H. Ramos, Trevor J. Pugh, Jane Wilkinson, Sheila Fisher, Wendy Winckler, Scott Mahan, Kristin Ardlie, Jennifer Baldwin, Stacey B. Gabriel, Todd R. Golub, Matthew Meyerson, Eric S. Lander and Gad Getz from The Broad Institute of Harvard and MIT; Yotam Drier (lead author) from the Weizmann Institute of Science, Israel; Andrea Sboner and Mark B. Gerstein from Yale University; Jonathan W. Simons from the Prostate Cancer Foundation, Santa Monica, Calif.; and Philip W. Kantoff and Lynda Chin from the Dana-Farber Cancer Institute.

Funding for the project was provided by the Prostate Cancer Foundation, the Howard Hughes Medical Institute, the National Human Genome Research Institute, the Kohlberg Foundation, the National Cancer Institute, the National Institutes of Health, the Department of Defense, the Dana-Farber/Harvard Cancer Center Prostate Cancer SPORE grant, and the Starr Cancer Consortium.

Dr. Mark Rubin is the co-inventor of the discovery of looking at prostate cancer in the context of the TMPRSS2-ETS rearrangement. Dr. Rubin's discovery has been used in this study, and Dr. Rubin receives royalties from Brigham and Women's Hospital, which has licensed his discovery to Gen-Probe Incorporated and Ventana Medical Systems, Inc. In addition, Dr. Mark Rubin serves as a consultant for Gen-Probe Incorporated and Ventana Medical Systems, Inc.

Weill Cornell Medical College

Weill Cornell Medical College, Cornell University's medical school located in New York City, is committed to excellence in research, teaching, patient care and the advancement of the art and science of medicine, locally, nationally and globally. Physicians and scientists of Weill Cornell Medical College are engaged in cutting-edge research from bench to bedside, aimed at unlocking mysteries of the human body in health and sickness and toward developing new treatments and prevention strategies. In its commitment to global health and education, Weill Cornell has a strong presence in places such as Qatar, Tanzania, Haiti, Brazil, Austria and Turkey. Through the historic Weill Cornell Medical College in Qatar, the Medical College is the first in the U.S. to offer its M.D. degree overseas. Weill Cornell is the birthplace of many medical advances -- including the development of the Pap test for cervical cancer, the synthesis of penicillin, the first successful embryo-biopsy pregnancy and birth in the U.S., the first clinical trial of gene therapy for Parkinson's disease, and most recently, the world's first successful use of deep brain stimulation to treat a minimally conscious brain-injured patient. Weill Cornell Medical College is affiliated with New York-Presbyterian Hospital, where its faculty provides comprehensive patient care at New York-Presbyterian Hospital/Weill Cornell Medical Center. The Medical College is also affiliated with the Methodist Hospital in Houston. For more information, visit weill.cornell.edu.

Broad Institute of Harvard and MIT

The Eli and Edythe L. Broad Institute of Harvard and MIT was launched in 2004 to empower this generation of creative scientists to transform medicine. The Broad Institute seeks to describe all the molecular components of life and their connections; discover the molecular basis of major human diseases; develop effective new approaches to diagnostics and therapeutics; and disseminate discoveries, tools, methods and data openly to the entire scientific community.

Founded by MIT, Harvard and its affiliated hospitals, and the visionary Los Angeles philanthropists Eli and Edythe L. Broad, the Broad Institute includes faculty, professional staff and students from throughout the MIT and Harvard biomedical research communities and beyond, with collaborations spanning over a hundred private and public institutions in more than 40 countries worldwide. For further information about the Broad Institute, go to www.broadinstitute.org.

Dana-Farber Cancer Institute

Dana-Farber Cancer Institute (www.dana-farber.org) is a principal teaching affiliate of the Harvard Medical School and is among the leading cancer research and care centers in the United States. It is a founding member of the Dana-Farber/Harvard Cancer Center (DF/HCC), designated a comprehensive cancer center by the National Cancer Institute. It provides adult cancer care with Brigham and Women's Hospital as Dana-Farber/Brigham and Women's Cancer Center and it provides pediatric care with Children's Hospital Boston as Dana-Farber/Children's Hospital Cancer Center. Dana-Farber is the top ranked cancer center in New England, according to U.S.News & World Report, and one of the largest recipients among independent hospitals of National Cancer Institute and National Institutes of Health grant funding.


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[Press-News.org] Sweeping view of prostate cancer genome yields deep insights
Using whole genome sequencing and multiple tumor samples, researchers uncover genes tied to prostate cancer growth