New method may help ‘cook’ cancer cells

June 17th, 2008 - 3:29 pm ICT by ANI  

Washington, June 17 (ANI): Scientists at UT Southwestern Medical Center and nanotechnology experts from UT Dallas are testing a new way to selectively kill cancer cells by attaching cancer-seeking antibodies to tiny carbon tubes that heat up when exposed to near-infrared light.

Now, researchers can use biological molecules called monoclonal antibodies that bind to cancer cells. Monoclonal antibodies can work alone or can be attached to powerful anti-cancer drugs, radionuclides or toxins to deliver a deadly payload to cancer cells.

For the study, they used monoclonal antibodies that targeted specific sites on lymphoma cells to coat tiny structures called carbon nanotubes, which are very small cylinders of graphite carbon that heat up when exposed to near-infrared light.

This type of light, which is invisible to the human eye, is used in TV remote controls to switch channels and is detected by night-vision goggles. Near-infrared light can penetrate human tissue up to about 11/2 inches.

The antibody-coated nanotubes are attached to the cells’ surfaces in cultures of cancerous lymphoma cells. After exposing the targeted cells to near-infrared light, the nanotubes heated up, generating enough heat to essentially “cook” the cells and kill them. Nanotubes coated with an unrelated antibody neither bound to nor killed the tumor cells.

“Using near-infrared light for the induction of hyperthermia is particularly attractive because living tissues do not strongly absorb radiation in this range. Once the carbon nanotubes have bound to the tumor cells, an external source of near-infrared light can be used to safely penetrate normal tissues and kill the tumor cells,” said Dr. Ellen Vitetta, director of the Cancer Immunobiology Center at UT Southwestern and senior author of the study.

She added: “Demonstrating this specific killing was the objective of this study. We have worked with targeted therapies for many years, and even when this degree of specificity can be demonstrated in a laboratory dish, there are many hurdles to translating these new therapies into clinical studies. We’re just beginning to test this in mice, and although there is no guarantee it will work, we are optimistic.”

The new study is the first to show that both the antibody and the carbon nanotubes retained their physical properties and their functional abilities binding to and killing only the targeted cells. This held true even when the antibody-nanotube complex was placed in a setting designed to imitate conditions inside the human body.

“There are rational approaches to detecting and minimizing the potential for nonspecific toxicity of the nanoparticles developed in our studies,” said Dr. Rockford Draper, leader of the team from UT Dallas and a professor of molecular and cell biology.

The study is available online and in an upcoming print issue of Proceedings of the National Academy of Sciences. (ANI)

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