Lung cancer is the leading cause of cancer death in the United States and five-year survival remains low. Numerous studies have shown that chronic inflammation may lead to progression of carcinogenesis. As a result of inflammatory stimulation, arachidonic acid ( AA) metabolism produces proliferation mediators through complex and dynamic interactions of the products of the LOX/COX enzymes. One important mediator in the activation of the AA pathways is the nuclear protein PPAR.. Targeting LOX/COX enzymes and inducing activation of PPAR. have resulted in significant reduction of cell growth in lung cancer cell lines. However, specific COX-inhibitors have been correlated with an increased cardiovascular risk. Clinical applications are still being explored with a novel generation of dual LOX/COX inhibitors. PPAR. activation through synthetic ligands (TZDs) has revealed a great mechanistic complexity since effects are produced through PPAR.-dependent and -independent mechanisms. Furthermore, PPAR. could also be involved in regulation of COX-2. Overexpression of PPAR. has reported to play a role in control of invasion and differentiation. Exploring the function of PPAR., in this new context, may provide a better mechanistic model of its role in cancer and give an opportunity to design a more efficient therapeutic approach in combination with LOX/COX inhibitors. Copyright (C) 2008 J. Tauler and J. L. Mulshine.
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