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Broccoli and Brussels sprouts: cancer foes

来源:Harvard Gazette   更新:2019-06-06 16:38:48   作者:Alvin Powell

Research finds compound in such cruciferous vegetables that may help to suppress tumors

New research has linked a compound found in Brussels sprouts, broccoli, and other cruciferous vegetables to one of the body’s most potent tumor-suppressing genes.

The study says that the compound, called I3C, is involved in a complex chemical chain reaction that frees the tumor suppressor to do its job. The research also highlights the chemical warfare that goes on inside the body as it struggles to prevent tumors from developing even as tumors themselves fight to grow and spread.

The research comes out of the lab of Pier Paolo Pandolfi at Beth Israel Deaconess Medical Center’s Cancer Center and Cancer Research Institute. Pandolfi, the Victor J. Aresty Professor of Medicine at Harvard Medical School, headed a team that explored the function of a cancer-suppressing gene called PTEN, which encodes a protein that controls cell growth. Pandolfi called PTEN “one of the most important tumor suppressors in the history of cancer genetics.

“The study’s really exciting,” he said. “I’ve been bombarded by journalists — because of the broccoli connection, let’s be honest. Forget what you think about the science, the fact that [we found] something that your grandma would say [is] good for you, it’s appealing.”

PTEN is regularly targeted by cancers, which seek to delete, mutate, or otherwise inactivate it. Pandolfi and his team, representing institutions in the U.S., Taiwan, China, Italy, Australia, and India, set out to discover how. Using human cells and mice bred to develop cancer, the researchers found that an enzyme known to promote cancer growth, called WWP1, played an important role in interfering with PTEN function.

The researchers analyzed and created a computer model of WWP1’s physical structure, enabling them to search chemical libraries for a molecule that might bind to it and block its function. They discovered that a naturally occurring compound found in cruciferous vegetables — indole-3-carbinol, or I3C — did the trick, neutralizing the enzyme and restoring PTEN’s tumor-suppressing powers in lab mice engineered to develop prostate cancer.

The work, published in the journal Science and supported by the National Institutes of Health, opens the door to developing anti-cancer drugs based on suppressing WWP1 and freeing PTEN to do its job. The research also may provide a way to help people suffering from a genetic PTEN deficiency, which in addition to making them prone to developing cancer also causes developmental defects that can result in intellectual disability or psychiatric illness.

PTEN is also known to affect health more broadly. Mice that produce surplus PTEN develop smaller than normal bodies — likely because of PTEN’s restraint on surplus cell division — but are metabolically healthier than normal mice and live longer.

“We believe this class of drugs could be very important in human health beyond cancer,” said Pandolfi, whose prior work with the vitamin A derivative all-trans retinoic acid (ATRA) led to a drug that induces remission in acute promyelocytic leukemia.

The PTEN-protecting compound, I3C, was already known to science and thought to have anti-cancer properties, though its precise mechanism was a mystery. It occurs naturally in the cruciferous vegetables that include broccoli, Brussels sprouts, arugula, cabbage, kale, and cauliflower. That group has been investigated in the past for its cancer-fighting properties, according to the National Cancer Institute, with promising results in animal studies, but mixed results in humans.

But for anyone encouraged by the results who wants to embark on a broccoli-eating binge, Pandolfi said there’s a chore ahead. The doses effective in laboratory mice would be the human equivalent of eating more than six pounds of broccoli daily.

From a practical standpoint, that means the most likely approach would be to develop a pill form, Pandolfi said. I3C seems to be well-tolerated by humans and is actually on the market based on anti-cancer properties exhibited in preliminary studies. Its targets aren’t limited to WWP1, so additional work is needed to investigate appropriate doses and unintended effects of I3C supplements, Pandolfi said.

An alternative, albeit one that will take time, would be to develop a more narrowly targeted molecule based on I3C’s structure that zeroes in on WWP1. Pandolfi said his team’s future research will likely move in those directions.

Link:  Broccoli and Brussels sprouts: cancer foes

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