Defensins are known to be an important component of the body's immediate response to infection. ß-defensin 2 attacks and destroys a broad range of bacteria as part of the innate immune system, the body's first line of defense against such infections.
The new finding links ß-defensin 2 to the second arm of the immune system, adaptive immunity. The adaptive immune response combats pathogens that evade the body's initial defense mechanisms. Unlike innate immunity, the adaptive immune system develops specifically in response to an infection, changing as needed to ward off each invader.
"This link between the innate and adaptive immune systems is important for our understanding of the body's ability to detect infection," said Arya Biragyn, Ph.D., National Cancer Institute (NCI) staff scientist and first author of the study. "ß-defensin 2 is likely to play an important role in the immune system's ability to recognize protein fragments from the body's own cells, including tumor cells."
Working in both mice and laboratory cell cultures, Biragyn and his colleagues found that ß-defensin 2 directly activates immune cells known as dendritic cells. Once activated, dendritic cells interact with other components of the immune system to stimulate the multiplication of a subset of T cells that will recognize and destroy infected cells. Dendritic cells can also trigger attack of tumor cells by the immune system.
"When we administered ß-defensin 2 to mice, we observed a robust response among cells involved in anti-tumor immunity," noted NCI's Larry W. Kwak, M.D., Ph.D., the senior investigator on the study. Researchers hope to take advantage of this property by incorporating ß-defensin 2 into cancer vaccines.
Cancer vaccines are an investigational therapy designed to program the body's own immune system to attack a tumor. The vaccine does this by training T cells to recognize cancerous cells. Scientists hope that adding ß-defensin 2 to such vaccines will promote the growth and multiplication of the tumor-destroying cells, improving patient response to the therapy.
Similarly, researchers hope that ß-defensin 2 will also be useful in improving AIDS vaccines in the future.
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