New Study Reveals How Tumors Remodel Their Surroundings to Grow
Research identifies a mechanism in the tumor stroma that triggers an inflammatory response, promoting tumor growth and metastasis. The findings suggest a new approach to anti-cancer therapies that incorporates targets in the tumor microenvironment.
Article ID: 620138
Released: 3-Jul-2014 12:00 PM EDT
Source Newsroom: Sanford Burnham Prebys Medical Discovery Institute
Newswise — La Jolla, Calif., July 3, 2014 A team of scientists from Sanford Burnham Medical Research Institute (Sanford-Burnham) has found that the loss of a protein called p62 in the cells and tissue surrounding a tumor can enhance the growth and progression of tumors. The study suggests that therapies targeting the tumor microenvirnoment may be as important as targeting the tumor itself.
The findings, published July 3 in Cancer Cell, contribute to the increasing acknowledgement that the cells and tissue surrounding a tumor—the stroma—are an integral part of cancer initiation, growth, and expansion.
“Our study reveals a precise mechanism that stromal cells use to encourage the tumorigenesis of epithelial cancer cells,” said Jorge Moscat, Ph.D., director of the Cell Death and Survival Networks Program at Sanford-Burnham. “We have shown that in the stroma, p62 acts as an anti-inflammatory tumor suppressor, controlling the inflammatory environment and the signals that promote cancer. In the absence of p62, tumors grow larger and are more inclined to metastasize.”
p62 location influences tumor growthPreviously, Moscat and colleagues demonstrated that p62 activation in prostate and lung cancer epithelial cells had tumor-promoting effects. Cancers of the epithelial cells are called carcinomas, and about 85 percent of all cancers are carcinomas.
In the current study, his team studied the effects of p62 in the tissue adjacent to the tumor, and found it had the reverse effects there.
“These are highly significant observations since p62 activates another protein called mTOR which is a biological target of many ongoing clinical trials in cancer right now,” said Maria Diaz-Meco, Ph.D., professor at Sanford-Burnham and co-author of the study.
“This potentially means that therapeutic strategies aimed at depleting an organism of p62 and inhibiting mTOR in the cells that surround the tumor may actually benefit the tumor, because tumor-suppressive activities would be inactivated. It also may explain why therapies aimed at blocking mTOR are showing limited clinical efficacy,” added Diaz-Meco.
Unveiling the mechanism of p62The initial hint that p62 in the stroma influences tumor growth came by analyzing more than 200 human prostate tumors with Gleason scores ranging from 2 to 10. Gleason scores are a numerical assignment given to prostate tumors based on pathology, with the highest scores (10 maximum) indicating that the cancer is very likely to spread. The research team found that p62 levels in the stroma were significantly lower in samples with the highest Gleason scores, suggesting a protective role for p62.
To understand how p62 works, the research team introduced prostate cancer cells and monitored tumor formation in normal mice, and mice genetically engineered to lack p62. The mice without p62, called p62 knockout (KO) mice, had larger prostate tumors compared to normal mice, supporting the notion that the absence of p62 in an organism promotes cancer growth.
The researchers went on to show that p62 KO mice had increased levels of IL-6, a pro-inflammatory cytokine (a signaling molecule) that enhances tumor cell proliferation and inhibits cell death. And, the genetic events that linked p62 depletion to increased levels of IL-6 in mice were mirrored in humans.
“Our observations support a more comprehensive approach to treating cancer, one that is based on our understanding of the communications between a tumor and its environment,” added Moscat. “Conceivably, treatments that inhibit tumor-promoting inflammatory signals combined with tumor-specific targets may improve cancer outcomes.”
About Sanford-Burnham Medical Research Institute Sanford-Burnham Medical Research Institute is dedicated to discovering the fundamental molecular causes of disease and devising the innovative therapies of tomorrow. Sanford-Burnham takes a collaborative approach to medical research with major programs in cancer, neurodegeneration and stem cells, diabetes, and infectious, inflammatory, and childhood diseases. The Institute is recognized for its National Cancer Institute-designated Cancer Center, its NIH-designated Neuroscience Center Cores, and expertise in drug discovery technologies. Sanford-Burnham is a nonprofit, independent institute that employs over 1,000 scientists and staff in San Diego (La Jolla), Calif., and Orlando (Lake Nona), Fla. For more information, visit us at sanfordburnham.org.
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