Study links DNA methylation to aggressive prostate cancer behavior
· News-MedicalThe prostate is the single organ most frequently afflicted by cancer in men. Prostate cancer affects approximately 4 million American men, with another 330,000 men expected to be diagnosed with the condition this year alone.
Most prostate cancers arise late in life. The tumors grow slowly and remain in the prostate. However, there are several hundred thousand cases in which the cancer is more aggressive and grows quickly, spreading beyond the prostate into lymph nodes and bone.
But this discovery led to a major new question: How do changes in the DNA lead to changes in the cancers that affect growth rates and response to therapy?
Methylation is a fundamental process in cell biology that involves chemical tags called methyl groups being attached to specific DNA segments. The process turns certain genes on or off. In cancer, methylation can reveal how a tumor is likely to behave or respond to treatments. Because methylation changes happen to DNA after mutations occur, it serves as the key link between cancer genetics and patient outcome.
To fully define this process, Boutros and colleagues created a compendium of 3,001 multi-ancestry prostate methylomes (a complete set of DNA methylation modifications) spanning normal tissue through localized prostate disease of all grades to advanced metastatic disease. A subset of 884 samples also had multi-omic DNA and/or RNA characterization. Samples for this study came from around the world.
Boutros' team found that of the millions of potential methylation patterns in prostate cancer, four specific patterns were extremely common. These so-called "methylation subtypes" recurred across patients and closely reflected the clinical aggressiveness of cancers. One subtype was associated with normal aging prostate and extremely slow growing cancers. Two subtypes were associated with prostate cancers that tended to grow at a moderate pace, but rarely moved out of the prostate. And the final subtype almost exclusively occurred in prostate cancers that metastasized and became lethal.
Takafumi Yamaguchi, a bioinformatician at Sanford Burnham Prebys and co-lead author of the study, noted the multidisciplinary collaboration underlying the research.
"A study like this is a beautiful, complex dance. There were 22 separate institutions from around the world working together. We needed to find ways for cancer biologists and statisticians to talk with urologists, radiation oncologists and pathologists. Many of the technologies, and the AI and data science techniques we used, didn't exist just 10 years ago, so there was a lot of learning for everyone!"
"Secondly, several parts of this study hint that oxygen flow in the prostate may be very important. We are going to test whether light exercise and similar strategies can help reduce the incidence of aggressive prostate cancer in clinical trials."
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