Resumen:
Despite the identification of several preventive agents and strategies, prevention of lung cancer, especially in smokers who are at high risk, is still largely unattained. 1,4-Phenylenebis(methylene)selenocyanate (p-XSC) has been shown to inhibit tobacco carcinogen NNK induced lung cancer development in several animal models. It metabolizes through the formation of active bis-selenol (p-XSeH) along with the release of poisonous hydrogen cyanide (HCN). Nevertheless, the HCN released upon metabolism of p-XSC to form active metabolite p-XSeH, pose a serious challenge its clinical use in a chemopreventive set up where a continuous intake is required for healthy individuals over a longer period of time. Recently, we developed a hybrid agent, p-XS-Asp, linking p-XSe- to commonly used non-steroidal anti-inflammatory drug, aspirin (Asp), which has been shown to be preventive of lung, and colorectal cancer. We hypothesized that p-XS-Asp would cleave in vivo to release the active p-XSeH, not releasing undesired HCN but the aspirin, thus making the compound less toxic and more potent than p-XSC or aspirin alone. Our studies have shown p-XS-Asp to be orally bioavailable and a highly effective lung cancer chemopreventive agent both in vitro and in animal studies. Elemental selenium (Se) analysis of plasma, lung, and liver tissue in orally fed mice showed that the level of Se significantly higher for p-XS-Asp than p-XSC, denoting a better bioavailability profile for p-XS-Asp...
