Washington: Scientists have discovered new potential targets for treating squamous cell lung cancer, which causes approximately 400,000 deaths per year worldwide. (Agencies)
Squamous cell lung cancer kills more people each year than breast, colorectal, or prostate cancer, ranking second only to lung adenocarcinoma in the number of deaths it causes.
But unlike the most common form of lung cancer, squamous cell carcinoma has no treatments aimed at the specific genetic alterations that drive it.
Now The Cancer Genome Atlas (TCGA) Research Network, led in part by scientists at the Broad Institute, Dana-Farber Cancer Institute, and Harvard Medical School, has identified many potential therapeutic targets based on the large number and variety of DNA alterations they discovered in most of the tumours they studied.
"This study clearly shows that squamous cell carcinoma, like lung adenocarcinoma, is a cancer with diverse genomic causes, many of which are potentially susceptible to drug inhibition," said Matthew Meyerson, co-leader of the project within TCGA, Broad senior associate member, and professor of pathology at Dana-Farber Cancer Institute and Harvard Medical School.
"This provides many new therapeutic opportunities for squamous cell carcinoma that would be suitable for clinical trials," he noted.
The first targeted treatments for lung adenocarcinoma, erlotinib (Tarceva) and gefitinib (Iressa), were aimed at mutations in the EGFR gene. Unfortunately, and like other drugs being tested in clinical trials that target several other genes altered in lung adenocarcinoma, they do not help patients with squamous cell carcinoma.
The TCGA effort, a multicenter consortium funded by the National Institutes of Health, is the first comprehensive genomic characterization of this lung cancer subtype.
As in the three previous TCGA reports on the brain cancer glioblastoma, on ovarian cancer, and on colorectal cancer, the scientists used multiple large-scale approaches to highlight key molecular defects. They sequenced the protein-coding segments of the genomes of 178 squamous cell carcinoma tumors, along with normal tissue from the same patients.
The researchers also sequenced the whole genomes of 19 tumor and normal tissue pairs. They mapped a diverse catalog of genomic alterations, including the rearrangements of chromosomes and other structural changes in regions of the genome that might not encode proteins but could control nearby genes involved in cancer development.
The comprehensive study confirmed some previously identified genomic alterations. For example, the TP53 gene was altered in 90 percent of the tumours and the CDKN2A gene was inactivated in 72 percent of tumours. These genes normally prevent cancer, but when they are switched off, tumours can grow unimpeded. CDKN2A may be susceptible to a kinase inhibitor, presenting an opportunity for clinical trials.
Overall the researchers identified mutations or amplifications in three families of tyrosine kinases, which are enzymes that act like power switches for many cellular functions. Frequently altered in cancer, they are already being investigated as therapeutic targets in other cancers. The researchers also found genomic alterations in signalling pathways that could present important opportunities for treatment.
In another striking finding, the researchers discovered mutations in the HLA-A gene that hampered its function in tumours. HLA genes direct the arm of the immune system that discriminates between its own tissues and foreign invaders. This is the first cancer in which these mutations have been found, but they are likely to occur in other cancers, Meyerson said.
"To our knowledge, this is the first example of a tumour that has a genomic mechanism for evading an immune response. This may be important in understanding the immune response to squamous cell carcinoma and also in envisioning how immune-regulatory therapy might be used for this disease," he said.
While much works needs to be done, the scientists see many opportunities. Their work was published online in Nature.
Washington: Scientists have discovered new potential targets for treating squamous cell lung cancer, which causes approximately 400,000 deaths per year worldwide.