Scientists said Sunday they had found mutations in 26 genes that may cause esophageal cancer, a breakthrough they hope will lead to new drugs for the deadly and increasingly frequent disease.
A team of experts in the United States unraveled the genetic code of tumor cells from 149 patients, which they compared to healthy cells to identify a mutation signature for esophageal adenocarcinoma (EAC).
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This type of cancer of the esophagus or gullet, the muscular tube that moves food from the mouth to the stomach, has a five-year survival rate of only about 15-20 percent.
EAC often originates from a disease called Barrett's esophagus, which in turn is caused by chronic acid reflux.
Incidence of the cancer has increased by 600 percent over the last 30 years -- particularly in Western countries, according to the study.
Esophageal cancer kills about 15,000 people in the United States alone every year -- and a total 400,000 worldwide.
Now, the biggest genetic analysis yet of this type of cancer has revealed common mutations that may be specifically targeted by new drugs.
"Finding the mutations helps us understand what makes the cancer tick," study co-author Adam Bass of the Harvard Medical School told AFP.
"It can also help us find new therapies."
Cancer develops when a human cell's DNA is mutated so that its normal function is disrupted and it starts growing and spreading out of control.
There are different causes, including obesity, smoking, exposure to the sun's UV rays or environmental pollution.
Mutations of different genes have been implicated in different cancers, but there are also vast differences even among people with the same form of the disease.
"We looked at which genes were mutated more frequently than would be expected by chance," said Bass.
"Doing so, we found 26 genes that may be contributing to this cancer type."
Genes are segments of DNA that carry the instruction manuals for cells.
"Why this is especially interesting is that the rates of esophageal adenocarcinoma have risen greatly in the last several decades," said Bass.
"We suspect that there may be some factor in the reflux which is causing this specific type of DNA damage.
"If this is so and we can pin down what type of specific factor is responsible for these mutations, we may be able to develop new approaches to prevent these cancers or at least to diagnose them at an earlier point."