 |
|
Second gene linked to familial testicular cancer
June 30, 2009Specific variations or mutations in a particular can gene raise a man's risk of familial, or inherited, testicular germ-cell cancer, the most common form of this disease, according to new research by scientists at the National Institutes of Health. This is only the second gene to be identified that affects the risk of familial testicular cancer, and the first gene in a key biochemical pathway. The study appears in the July 2009 Cancer Research.
Researchers have suspected for years that heredity plays a role in some patients with testicular germ-cell cancer, although attempts to identify a single gene with very strong effects have been unsuccessful thus far. Scientists currently believe that multiple genes with weaker individual effects--but acting together--probably influence an individual's risk of familial testicular cancer.
Men with a family member who had a testicular germ cell cancer are at three-to six-fold greater risk than other men of developing testicular cancer. Although a family history of testicular cancer probably accounts for less than five percent of all testicular cancers, the careful study of rare familial cancer clusters has often led to important new understanding of the non-familial versions of the same cancer. There will be an estimated 8,400 new cases of testicular cancer diagnosed in 2009 with about 90 percent of them being germ-cell cancers, according to the National Cancer Institute (NCI).
"This study contributes to our understanding of why testicular germ cell cancer appears to run in families," said Raynard Kington, M.D., Acting NIH Director. "The findings may also lead to new ways to identify men at high risk, as well as more effective ways to prevent and treat testicular germ cell cancer."
The key pathway in this disease is the cyclic AMP pathway, which regulates how cells respond to such signals as hormones. Drugs that affect the cyclic AMP pathway are widely available, and, in theory, could affect progression of testicular cancer.
In this study, Anelia Horvath, Ph.D., Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), performed the laboratory research and Larissa Korde, M.D., NCI, led the clinical cancer genetics study which identified the multiple-case testicular cancer families used for the DNA analysis. The NICHD and NCI are parts of NIH.
The researchers found that seven different mutations in the gene in question, PDE11A, created abnormal versions of the PDE11A enzyme that slowed down the enzyme's destruction of cyclic AMP.
"The mutations don't cause cancer directly, but instead appear to increase an individual's susceptibility to developing a tumor," explained the study's senior author, Constantine Stratakis, M.D., D.Sc., chief of NICHD's Section on Endocrinology and Genetics. "Almost one out of every five families we studied had a variation in the gene that affected its functioning."
To conduct the research, Stratakis and his colleagues analyzed the portion of the DNA from 95 familial testicular cancer patients that contains the PDE11A gene. They found seven mutations in the cancer patients, and noted that the rate at which they were detected was much higher than that seen in the DNA of people without testicular cancer.
The researchers also had access to the DNA of a group of healthy men, who had been screened for diseases of the endocrine organs, including the testicles. None of the men who screened negative carried any of the genetic mutations identified in the familial testicular cancer patients. "Because this group had no mutations in PDE11A, we were more confident that the mutations had something to do with testicular cancer," said Korde.
Learning how disruptions in the PDE11A enzyme lead to an increased risk of tumor formation may help researchers identify other proteins that also play a role, Stratakis said. He indicated that a good place to look is among other proteins in the cyclic AMP pathway.
"This research is a perfect example of how effective medical research can be when investigators from multiple, different disciplines work together as a team to solve a problem," said Korde. "This is team science at its best; it represents the kind of research synergy at which NIH excels."
Stratakis noted that PDE11A is also highly expressed in the prostate gland. He and his colleagues are now undertaking the research to find the frequency of PDE11A mutations in patients with prostate cancer.
NIH/National Institute of Child Health and Human Development
"This study contributes to our understanding of why testicular germ cell cancer appears to run in families," said Raynard Kington, M.D., Acting NIH Director. "The findings may also lead to new ways to identify men at high risk, as well as more effective ways to prevent and treat testicular germ cell cancer."
The key pathway in this disease is the cyclic AMP pathway, which regulates how cells respond to such signals as hormones. Drugs that affect the cyclic AMP pathway are widely available, and, in theory, could affect progression of testicular cancer.
In this study, Anelia Horvath, Ph.D., Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), performed the laboratory research and Larissa Korde, M.D., NCI, led the clinical cancer genetics study which identified the multiple-case testicular cancer families used for the DNA analysis. The NICHD and NCI are parts of NIH.
The researchers found that seven different mutations in the gene in question, PDE11A, created abnormal versions of the PDE11A enzyme that slowed down the enzyme's destruction of cyclic AMP.
"The mutations don't cause cancer directly, but instead appear to increase an individual's susceptibility to developing a tumor," explained the study's senior author, Constantine Stratakis, M.D., D.Sc., chief of NICHD's Section on Endocrinology and Genetics. "Almost one out of every five families we studied had a variation in the gene that affected its functioning."
To conduct the research, Stratakis and his colleagues analyzed the portion of the DNA from 95 familial testicular cancer patients that contains the PDE11A gene. They found seven mutations in the cancer patients, and noted that the rate at which they were detected was much higher than that seen in the DNA of people without testicular cancer.
The researchers also had access to the DNA of a group of healthy men, who had been screened for diseases of the endocrine organs, including the testicles. None of the men who screened negative carried any of the genetic mutations identified in the familial testicular cancer patients. "Because this group had no mutations in PDE11A, we were more confident that the mutations had something to do with testicular cancer," said Korde.
Learning how disruptions in the PDE11A enzyme lead to an increased risk of tumor formation may help researchers identify other proteins that also play a role, Stratakis said. He indicated that a good place to look is among other proteins in the cyclic AMP pathway.
"This research is a perfect example of how effective medical research can be when investigators from multiple, different disciplines work together as a team to solve a problem," said Korde. "This is team science at its best; it represents the kind of research synergy at which NIH excels."
Stratakis noted that PDE11A is also highly expressed in the prostate gland. He and his colleagues are now undertaking the research to find the frequency of PDE11A mutations in patients with prostate cancer.
NIH/National Institute of Child Health and Human Development
Testicular Cancer Current Events and Testicular Cancer News RSSMetals could forge new cancer drug
Drugs made using unusual metals could form an effective treatment against colon and ovarian cancer, including cancerous cells that have developed immunity to other drugs, according to research at the University of Warwick and the University of Leeds.
Hypospadias, a birth defect of the male urethra, is not increasing in New York state
In recent decades, there have been periodic reports of a worldwide decline in sperm count and quality.
Penn researchers discover genetic risk factor for testicular cancer
Researchers at the University of Pennsylvania School of Medicine have uncovered variation around two genes that are associated with an increased risk of testicular cancer.
Women 10 times more likely to do breast self-exams correctly with intervention, KP study finds
A brief intervention program - consisting of one counseling session and two follow-up phone calls - boosted by tenfold the number of women correctly performing breast self- exams.
GUMC Researchers Show Adult Human Testes Cells Can Become Embryonic Stem-like, Capable of Treating Disease
Using what they say is a relatively simple method, scientists at Georgetown University Medical Center have extracted stem/progenitor cells from adult testes and have converted them back into pluripotent embryonic-like stem cells. Researchers say that the naïve cells are now potentially capable of morphing into any cell type that a body needs, from brain neurons to pancreatic tissue.
Marijuana use linked to increased risk of testicular cancer
Frequent and/or long-term marijuana use may significantly increase a man's risk of developing the most aggressive type of testicular cancer, according to a study by researchers at Fred Hutchinson Cancer Research Center. The study results were published online Feb. 9 in the journal Cancer.
UNC study supports role of circadian clock in response to chemotherapy
For years, research has hinted that the time of day that cancer patients receive chemotherapy can impact their chances of survival. But the lack of a clear scientific explanation for this finding has kept clinicians from considering timing as a factor in treatment.
Low sperm count may be associated with prenatal testosterone excess
Exposure to an excess of sexual steroids, like testosterone, during fetal development may be a potential risk factor for low sperm count and motility.
Maternal exposure to persistent organic pollutants linked to urologic conditions in boys
Higher incidences of congenital anomalies, including cryptorchidism (undescended testicles) and hypospadias, were found in boys whose mothers had higher serum levels of certain organochlorine compounds, researchers say.
IUPUI scientists report first 3-D view of anti-cancer agent
Researchers from the Indiana University School of Medicine and the Purdue School of Science at Indiana University-Purdue University Indianapolis have created the first three-dimensional image of how a well-established chemotherapy agent targets and binds to DNA.
More Testicular Cancer Current Events and Testicular Cancer News Articles
 |
Testicular Cancer (The Biology of Cancer) by Kathleen Verville (Author), Donna M. Bozzone (Editor) "Testicular Cancer" explores the various forms of the disease, discusses its detection, diagnosis, and treatment, and gives an overview of current clinical and laboratory research. This relatively rare form of cancer is seen most often in young men in their late teens, 20s, and 30s. The disease, which once killed most patients, now has a survival rate greater than 90 percent, making it one of the success stories in the history of cancer treatment. Important historical research breakthroughs in the fight against testicular cancer are highlighted, as well as important questions and challenges facing scientists in the future. |
 |
Charlie Rose (June 10, 2002) A rebroadcast of an interview from August 2, 2001 with three-time Tour de France winner Lance Armstrong on his cancer, plans for future cycling victories, and book It's Not About the Bike: My Journey Back to Life. This product is manufactured on demand using DVD-R recordable media. Amazon.com's standard return policy will apply. |
 |
GPI Anatomical Male Pelvis w/ Testicular Cancer by GPI The Male Pelvis- Normal and with Testicular Cancer- LFA #3570: Male Pelvis with testicle. One-half scale, mid-sagittal section male pelvis, shows anatomy of the pelvis and testis. A testicle with cancer is included. Testicle depicts a seminoma tumor, one of the two most common tumors. The 2-sided education card features the male pelvis on one side and 3 stages of testis tumors on the second side.Male pelvis model size: 7-1/4" x 1" x 4-3/4" Educational Card size: 6-1/2 x 5-1/4". Ideal for clinical display and consumer education Suitable for Urology, General Medicine, anatomical study, training for surgical dissection, or for patient education/demonstration of procedures. Note: Check out our other Urological and Medical Anatomical Models of the Male and Female Pelvis, Kidney, Prostate,... |
 |
Testicular Cancer Awareness Ribbon Mouse Pad by MyHeritageWear.com The Testicular Cancer Ribbon proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Testicular Cancer Ribbon than to display it on your mouse pad for everyone to see. The mouse pad measures at 9.25 x 7.75, it is machine washable, and the colors will not fade or run. Start gaining awareness today by presenting your Testicular Cancer Ribbon mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
 |
Fight Against Testicular Cancer T-shirt Large White by Shop Zeus |
 |
Beating Testicular Cancer Together Keychain by Design a Product LLC Text on keychain: Beating Testicular Cancer Together * Durable acrylic key chain is crystal-clear and double-sided so the artwork or message is seen twice. * Sturdy metal ring holds your keys securely. * Full color printed images or messages are included. * If you have new ideas or need help selecting text for your custom keychains please contact us. * Size: 2 1/8" x 3 1/2" (Approx. business card) |
 |
One Lump or Two?: A Humourous Story of One Man's Fight Against Testicular Cancer by Darren Couchman (Author) Full of emotion, inspiration and bags of laughter, this story tells the unique way of how an ordinary bloke dealt with the terrifying news of having testicular cancer. |
 |
Testicular Cancer From a Cellphone You Betray Me (Primary Contributor) |
 |
Episode 12 Also With: ITV Global Entertainment Ltd (Producer) |
 |
Testicular Cancer Medical Guide by Qontro Medical Guides (Author) The Testicular Cancer Medical Guide is a publication which has been designed to better help readers understand Testicular Cancer. This Qontro Medical Guide has been designed with the reader in mind, and is a useful information source for readers at all levels looking to learn more about Testicular Cancer. The Testicular Cancer Medical Guide is highly recommended for those interested in understanding and learning more about Testicular Cancer. |
| © 2009 BrightSurf.com |