March 21, 2012
Double Whammy: RNAi Enhances Lung Cancer Therapy
Non-small cell lung cancer (NSCLC), the most common form of lung cancer, is usually treated with surgery and chemotherapy. However, a small group of patients can also be helped by treatment with tyrosine kinase inhibitors (TKI). New research published in BioMed Central's open access journal BMC Medicine, shows that blocking production of epidermal growth factor receptor (EGFR) using RNAi, alongside TKI (or antibody therapy), could enhance the effect of TKI on NSCLC cell death, and slow cell growth.
There are 1.2 million new cases of lung cancer worldwide every year and about 75-85% of these are NSCLC. 10% of cases with NSCLC have a mutation in the gene responsible for making EGFR, and three quarters of these patients respond well to TKIs. However others are unresponsive, and, even for the people who responded at first, the cancer always ultimately becomes resistant to TKI therapy.In an attempt to circumvent this problem researchers from Universitair Ziekenhuis Brussel, in Belgium, tested the effect of adding RNAi to standard TKI or antibody therapy in NSCLC cells. Proteins are made in the cell's cytoplasm, but DNA is stuck inside the nucleus. Consequently, in order to produce a protein, a cell must first copy the gene's DNA sequence, producing an intermediary molecule called RNA which is able to travel out of the nucleus to the cytoplasm. RNAi 'interferes' with the mechanism for producing proteins by blocking proper function of the intermediary RNA stage.
A team led by Prof De GrÃ¨ve and his co-worker, Gang Chen, found that the small interfering RNA (siRNA) molecule they designed was able to inhibit EGF protein production in all the NSCLC cell lines tested. It was also able to slow down cell growth and increase cell death (apoptosis) in all the cell lines — although some responded better than others. When they tested siRNA alongside TKI and or monoclonal antibodies they discovered that the siRNA had an additional positive effect on the cell lines than the standard treatment alone.
Prof De GrÃ¨ve explained, "Some EGFR mutations were more sensitive to siRNA than others - we saw especially good results against the mutation in exon 19. We think that this reflects the fact that the growth of cells with this mutation is driven by EGFR, but that other mutations are not as active. A different EGFR mutation produces cells which cannot be inhibited by TKI, however even these cells were sensitive to siRNA."
These results provide hope for NSCLC patients with EGFR mutations, as it could potentially enhance TKI therapy. It may also help those who do not respond to TKI, or who have become resistant to TKI therapy. Additionally this treatment may benefit another group of patients where the gene for EGFR is too active in their cancer and too much EGFR is produced.
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