Increasing evidence suggests that tomato lycopene may be preventive against the formation and the development of lung cancer. Experimental studies demonstrated that lycopene may inhibit the growth of several cultured lung cancer cells and prevent lung tumorigenesis in animal models. Various mechanisms have been proposed to explain the growth-inhibitory effects of lycopene on lung cancer, including cell cycle arrest and/or apoptosis induction via a modulation of redox status, a regulation of growth factor signalling, changes in cell growth-related enzymes, an enhancement of gap junction communication and a prevention of smoke-induced inflammation. In addition, lycopene also inhibited cell invasion, angiogenesis, and metastasis. Several lycopene metabolites have been identified, raising the question as to whether the preventive effects of lycopene on cancer risk is, at least in part, due to its metabolites. This article reviews data on the cancer preventive activities of lycopene, possible mechanisms involved, and the relationship between lycopene consumption and human cancer risk
Palozza, P., Simone, R. E., Catalano, A., Mele, M. C., Tomato Lycopene and Lung Cancer Prevention: From Experimental to Human Studies., <<CANCERS>>, 2011; (3): 2333-2357. [doi:10.3390/cancers3022333] [http://hdl.handle.net/10807/5574]
Tomato Lycopene and Lung Cancer Prevention: From Experimental to Human Studies.
Palozza, Paola;Catalano, Assunta;Mele, Maria Cristina
2011
Abstract
Increasing evidence suggests that tomato lycopene may be preventive against the formation and the development of lung cancer. Experimental studies demonstrated that lycopene may inhibit the growth of several cultured lung cancer cells and prevent lung tumorigenesis in animal models. Various mechanisms have been proposed to explain the growth-inhibitory effects of lycopene on lung cancer, including cell cycle arrest and/or apoptosis induction via a modulation of redox status, a regulation of growth factor signalling, changes in cell growth-related enzymes, an enhancement of gap junction communication and a prevention of smoke-induced inflammation. In addition, lycopene also inhibited cell invasion, angiogenesis, and metastasis. Several lycopene metabolites have been identified, raising the question as to whether the preventive effects of lycopene on cancer risk is, at least in part, due to its metabolites. This article reviews data on the cancer preventive activities of lycopene, possible mechanisms involved, and the relationship between lycopene consumption and human cancer riskI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.