Biological Regulation of Lung Cancer Growth
Mulshine, James Lawrence   
Clinical Sciences, United States

We have evaluated a number of compounds that influence the growth of lung cancer cells such as inhibitors of the autocrine growth factors, gastrin releasing peptide, insulin-like growth factor, and transferrin. This experience has allowed us to focus on signal transduction pathways that are central to regulating cancer cell growth and potentially amenable to clinical intervention. We have published data suggesting that 5-HETE, a product of 5-lipoxygenase activation, may be a key intermediary in cancer cell growth. We have shown that lung cancer cells frequently express the message for a number of archidonic acid metabolizing enzymes. We have demonstrated with an in vivo model that this anti-proliferative effect of blocking the lipoxygenase pathway is potentially mediated via an apoptotic mechanism. We now also have data suggesting that the same approach that we reported for lung cancer is equally relevant to breast cancer and prostate cancers. This is important mechanistic information could allow rapid translation into clinical prevention application In a related approach, while evaluating for the relative importance of various arachidonic acid metabolizing enzymes in aerodigestive carcinogenesis, we found that head and neck cancers consistently over-express the enzymes, cyclooxygenase. The importance of this enzyme is in its role in the progression of colon cancer, since chronic administration of cyclooxygenase inhibitors such as aspirin is associated with a major reduction in colon cancer rates. As with our efforts in delivering retinoids directly to the affected tissue, under a clinical trial agreement with Procter & Gamble, we are testing a locally active form of a cyclooxygenase inhibitor. In collaboration with investigators from NIDCR and NIDCD, we have started a trial that will evaluate the clinical utility of local drug delivery in individuals with evidence of a precursor lesion for oral cancer. Our working hypothesis is that local delivery technique will enhance drug levels in the tissues affected by the early cancer without incurring the serious morbidity or mortality of systemic drug delivery. Experimental data suggests that suppressing oral inflammation with the local delivery of a cyclooxygenase inhibitor will change the local environment arresting the evolution of the oral cancer. The randomized Phase IIB trial is underway. Patients are tolerating the oral rinse very well. Major objective responses have already occurred but the success of the intervention awaits unblinding when the full study is complete. Two institutions will be co-accruing to this study, including MD Anderson and University of Colorado Cancer Centers.