WASHINGTON—Combining gene therapy with radiotherapy may provide a useful approach to combating human esophageal cancers, said Vinay Kumar Gupta, MD, of the University of Chicago Medical School, at the 54th Annual Cancer Symposium of the Society of Surgical Oncology.
The experimental approach uses a recombinant adenovirus designed to express tumor necrosis factor-alpha (TNF-alpha) under the regulation of Egr-1, a promoter gene sensitive to ionizing radiation, Dr. Gupta said.
The researchers hypothesized that infecting a tumor with the adenovirus (Ad.Egr.TNF-alpha, produced by Gen-Vec, Gaithersburg, Md) and then exposing it to radiation would produce TNF-alpha, which, in turn, would slow down the tumor’s growth. In a sense, he said, tumors infected with the TNF-alpha-producing virus would contain "suicide genes."
To test their hypothesis, the researchers injected human esophageal adenocarcinoma into the legs of nude mice. After the tumors had grown to 250 mm², the mice were randomly assigned to four different treatments: injections of the recombinant virus followed by ionizing radiation to the tumor area; injections of the virus but no radiation; a viral buffer plus radiation; and viral buffer alone.
Tumors treated with the virus but not radiation did express TNF-alpha at low levels, Dr. Gupta reported, but the addition of radiation increased TNF-alpha levels by 36-fold. No TNF-alpha appeared in either of the groups that did not receive the virus.
Growth of the tumors treated with the combined therapy was significantly delayed, compared with the other three groups, with no added toxicity, Dr. Gupta said.
Although there is no solid proof that reducing the size of esophageal cancers increases patient survival, Dr. Gupta found these results particularly encouraging because, he said, the location of human esophageal cancer makes it treatable by injection.
