Mouse Studies Show Gene Therapy Method Holds Promise in Targeting Tumor Blood Vessels for Destruction
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Cancer researchers have reported the development of a novel method for delivering a therapeutic gene specifically to the blood vessels of tumors in mice. Once delivered, the gene produces a protein that damages the blood vessels and disrupts the blood flow to tumors but not to the surrounding tissue.
These results obtained with this experimental model are encouraging, because the researchers' method may be safer and cause fewer side effects than previously used methods for delivering the protein to tumors.
The study, led by researchers at the National Cancer Institute (NCI), part of the National Institutes of Health (NIH), and The University of Texas M.D. Anderson Cancer Center in Houston, appearing in the January 1, 2009, issue of "Cancer".
Blood vessels supply tumors with oxygen and nutrients that they need to grow beyond a certain size. Tumor necrosis factor-alpha (TNF-a), a protein produced by immune cells, has been shown to inhibit the growth of tumors by causing damage to their blood vessels. Since TNF-a can also damage the blood vessels of noncancerous tissues, systemic administration of the protein through the bloodstream can cause severe side effects.
Currently, TNF-a is used to treat human melanomas and sarcomas in patients' limbs or organs by isolating the blood vessels that supply the limb or organ from the rest of the body's circulatory system. This treatment approach produces local toxicity but little systemic toxicity.
Since most tumors are located in other areas of the body where this therapeutic approach cannot be used, the research team, led by Steven K. Libutti, M.D., and Anita Tandle, Ph.D., of NCI's Center for Cancer Research, in collaboration with Renata Pasqualini, Ph.D., and Wadih Arap, M.D., of M.D. Anderson, developed a novel gene therapy method that allowed them to target the delivery of TNF-a to tumor blood vessels and avoid damage to noncancerous tissues.
In gene therapy, a vector, or delivery vehicle, is used to carry a gene to a target cell or tissue. Once the gene is delivered, it is turned on, or expressed, and a protein is produced. In their study, the research team found that a type of vector known as an adeno-associated virus phage (AAVP) could effectively deliver the "TNF-a" gene to the blood vessels of human melanoma tumors in mice. AAVP is a hybrid vector that is made from a bacterial virus, or bacteriophage, which normally infects only bacteria, and an adeno-associated virus, which infects humans and some other primate species.
Bacteriophage-based vectors have a long history of safe delivery to humans. The bacteriophage component was engineered to target and infect specific mammalian cells, namely tumor blood vessel cells, by modifying the bacterial virus' outer-surface protein. The adeno-associated virus component was used to facilitate "TNF-a" gene expression in the targeted cells.