Chemistry and toxicology of smokeless tobacco.

In most parts of the world, tobacco is used for smoking, whereas, in India, tobacco is used for smoking as well as in diverse smokeless forms. Absorption of toxic and carcinogenic chemicals in tobacco and other ingredients added to various products are causally associated with several non-communicable diseases including cancer, especially oral cancer, which is the leading cancer among men and the third most common cancer among women in India. This article highlights the toxicity, mutagenecity and carcinogenic effects of hazardous chemicals present in smokeless tobacco products. This endeavor was based on the extensive review of literature from various sources. The SLT products have influence on cellular metabolism, ability to cause DNA damage, and cancer in experimental animals. It is, therefore, essential to consider the collective role of chemical constituents of SLT products in the causation of adverse effect on human health.

Inversion of carcinogen-promoter sequence: effects on mouse skin tumorigenesis and cellular growth kinetics.

To stimulate conditions wherein humans might be exposed to tumor promoters prior to carcinogenic stimulus, female S/RV Cri mice were treated with 12-O-tetradecanoylphorbol-13-acetate (TPA) for 10 weeks followed by a sc injection of 3-methylcholanthrene (MCA). Six weeks after MCA administration, tissue alterations in different skin layers were analysed by histology, morphometry and autoradiography. Multiple application of TPA prior to MCA injection induced moderate to marked epidermal hyperplasia with an increase in the thickness of nucleated cell layers and stratum granulosum. As compared to control, number of basal and suprabasal cells per 7.5 mm of interfollicular epidermal (IFE) length was significantly higher in the skin of animals treated with TPA + MCA. The hyperplastic response was accompanied by a significant increase in epidermal mitotic activity, number of cells in DNA-synthetic phase in epidermis, dermis and subcutis and subepidermal mast cell population. Histological observations of induced tumors revealed a significant increase in the incidence of carcinomas and mixed neoplasms of epithelial and mesenchymal histogenesis. The findings suggest that stimulated cellular proliferation in different layers of mouse skin by TPA treatment prior to MCA injection may play a major role in enhanced expression of histogenetically distinct tumors.

Correlation between tissue growth kinetics and modulation of mouse skin tumorigenesis by phorbol esters.

Previous studies on the influence of phorbol esters on mouse skin tumorigenesis have shown that 12-O-tetradecanoylphorbol-13-acetate (TPA) enhances development of malignant epithelial and mesenchymal skin tumors by a completely carcinogenic dose of 3-methylcholanthrene (MCA), while its congener phorbol-12, 13-diacetate (PDA) exerts an inhibitory effect. Differential effects of these two agents were analysed by histology, morphometry and cell kinetic techniques including autoradiography and estimation of labelled precursor incorporation into DNA by liquid scintillation counting. Epidermal hyperplasia induced on exposure of S/RV Cri mouse skin to a single or multiple TPA application after MCA injection was associated with a significant increase in the thickness of nucleated cell layers, stratum granulosum, number of suprabasal cells and dark basal cells. Enhancing effect of TPA on MCA-induced neoplastic development correlated well with an increase in mitotic activity, number of cells in S-phase and increased rate of DNA synthesis in the epidermis, dermis and subcutis as also mast cell number. In contrast, treatment of MCA-injected preneoplastic mouse skin with PDA resulted in epidermal hypoplasia and cellular damage evident as cytoplasmic vacuolation and nuclear pyknosis. Multiple PDA exposure also reduced the thickness, mitotic index and number of cells in S-phase in epidermis, dermis and subcutis. Thus, cellular toxicity and inability to recruit cells in DNA-synthetic phase may account for inhibition of progression of preneoplastic epithelial and mesenchymal cells into overt tumors by PDA.