The Molecular Mechanisms of Tobacco in Cancer Pathogenesis

Abstract

Context: Studies have shown that cancer is a multi-factorial disease in its pathogenesis, in addition to genetic disorders, the effect of environmental factors can also be pointed. Among all environmental factors, tobacco that is considered as the leading cause of respiratory and cardiovascular disease plays a key role in cancer pathogenesis and progression. More than 5,000 chemicals and 62 carcinogenes have been detected in tobacco, which could contribute to tumorgenesis through activating oncogenes, inhibition of tumor suppressor genes, genetic and epigenetic changes, alteration of growth pathways, angiogenesis and metastasis. Evidence Acquisition: To access the articles, we used valid external and internal databases. In order to set the search formula with maximum collectivity, at the first step, the main keywords were characterized and then equivalent terms were identified using various sources. In order to retrieve the last research papers, searches were conducted constantly from 1970 until 2015. The obtained results were screened in terms of relevance and quality indicators such as proper research design, control groups, inclusion and exclusion criteria, and also the statistical analysis. Accordingly, 150 articles were obtained and finally 64 articles which were eligible and had high relevance to the topic were selected and reviewed. Results: This review explains the association between tobacco smoking and the incidence of different human cancers; also it focuses on molecular mechanisms through which carcinogenic chemicals in tobacco smoke promote cancer progression. Among multiple components of tobacco smoke, three carcinogens, including polycyclic aromatic hydrocarbons (PAH), nictotine and nicotin-derived nitrosamine ketone (NNK) convincingly play major roles in the pathogenesis of a wide range of cancers. In fact, these toxic and carcinogenic agents alter the expression of oncogenes, tumor suppressors, DNA repair, and last but not least, apoptosis-related genes through several mechanisms, such as point mutations, deletions, translocations and gene recombination. Moreover, implication of different tumorgenic signal transduction pathways, such as PI3K/AKT, STAT3, ERK1/2 and COX-2 in tobacco-induced tumorgenesis should not be underestimated. Conclusions: Although many facts about the carcinogenic character of tobacco are yet unknown, understanding the molecular mechanisms of cancer development associated with smoking could be promising for early detection, treatment, and reducing metastasis of tobacco-related cancers.