Rise and fall of oral health products with Canadian bloodroot extract.

The rhizome of Sanguinaria canadensis (SC, bloodroot) contains an active principle with antimicrobial, antiinflammatory, antioxidative and immunomodulatory effects. For this reason SC extract has been added to toothpastes and mouthwashes in various concentrations. When tested separately, neither the toothpastes nor the mouthwashes with SC extract had any demonstrable clinical effectiveness against dental plaque and gingivitis. Although using them together twice a day seemed more effective than using placebo, more recent studies have shown conflicting results. Preclinical safety studies up to 2000, which did not include studies longer than 6 months, were thought not to indicate any appreciable potential for harm - to the oral mucosa in particular. In 2003, the FDA Subcommittee on Oral Health Care Drug Products for Over-the-Counter Human Use concluded from a review that using SC-containing products is safe. However, for reasons unknown, the review failed to consider publications between 1999 and 2001 that suggested a possible link between the use of SC-containing products and the pre-neoplastic lesion, leukoplakia. As it happened, bloodroot had already been removed (in 2001) from the formula of one of the most widely used products in question and the brand has since then disappeared altogether from the worldwide market.

Reference moist smokeless tobacco-induced apoptosis in human monocytes/macrophages cell line MM6.

Moist smokeless tobacco use is associated with various types of oral injury, including leukoplakia and dipper's pouch, although the mechanism by which the injury is caused still remains unclear. One possible mechanism is that moist smokeless tobacco affects the inflammatory response. For example, a study by Johnson et al. demonstrated a reduction in the volume density of macrophages and increased inflammation and redness at the smokeless tobacco placement site when compared to non-placement site. The current study investigated the direct effect of reference moist smokeless tobacco extract (STE) exposure on the viability of MM6 monocyte/macrophage cell line. The exposure of MM6 cells to various concentrations of STE, led to a significant and dose-related decrease in cell viability. Furthermore, STE exposure resulted in an increase in Annexin V/PI positive cells, an increase in TUNEL-positive cells, and cleaved PARP staining all of which were inhibited by pre-incubation with a pan-caspase inhibitor, suggesting that the observed STE toxicity was due to the induction of apoptosis. Next, the role of various moist smokeless tobacco-derived components in STE-induced apoptosis of MM6 cells was investigated. Our findings suggest that STE-induced osmotic stress, but not exposure to nicotine, plays an important role in STE-induced apoptosis of MM6 cells. Together, these data show for the first time that STE exposure leads to the induction of apoptosis in human monocyte/macrophage cells, which appears to be induced in part, by reference STE-mediated osmotic stress.

The involvement of reactive oxygen species in oral cancers of betel quid/tobacco chewers.

Most biological reactions, including carcinogenesis, are complex processes involving thousands of compounds, their metabolites and intermediates. The separation of events which form part of a direct chain leading to neoplastic transformation from those which are mere by-products is a herculean task. In this study, we focused on the pros and cons of reactive oxygen species (ROS) being involved in the development of oral cancer among chewers of tobacco and areca nuts. The results revealed that bursts of ROS generation occur at different stages of carcinogenesis, and are caused by different mechanisms. This observation may have considerable practical implications. Different strategies will be required in the administration of chemopreventive agents in order to trap ROS formed in the alkaline (due to the addition of slaked lime) chewing mixture within the saliva of a chewer, to scavenge ROS within mucosal cells exposed to an array of tobacco- or areca nut-related carcinogens or tumour promoters, and to inhibit the action of ROS released from ROS-generating white cells during lymphocytic infiltration of the oral mucosa at a precancerous stage. The remission of oral leukoplakias following the administration of vitamin A (200,000 IU/week) or vitamin A (100,000 IU/week) plus beta-carotene (180 mg/week) for 6 months, the inhibition of new leukoplakias during this trial period, and the reduction of micronucleated oral mucosal cells in chewers treated with beta-carotene or vitamin A are indeed promising results. However, a better understanding of the role of ROS in various stages of carcinogenesis will provide the basis for selection of the proper chemopreventive agents and the design of a treatment regime which may either prevent the formation of precancerous lesions, induce their remission, or inhibit the progression of precancerous lesions into malignant cancers.

Inhibition of hamster tongue carcinogenesis by selenium and retinoic acid.

The inhibitory effect of selenium, 13-cis-retinoic acid, and their combination was studied in an animal model in which squamous cell carcinoma of the tongue was induced by 0.5% 9,10 dimethyl-1,2 benzanthracene (DMBA). A controlled, blinded experiment was carried out using 60 Syrian hamsters divided into four groups of 15 each. When compared to controls, the mean day of carcinoma onset was delayed 3 weeks for animals given selenium, 6 weeks for animals given retinoic acid, and 5.5 weeks for animals given selenium plus retinoic acid. The differences between each experimental group and the control group are statistically significant. We conclude that both selenium and retinoic acid inhibit the development of DMBA-induced squamous cell carcinoma of the tongue in hamsters. The dose of retinoic acid used produces a stronger inhibitory effect, but is associated with significant toxicity. At the doses used, combined inhibitory effect is no greater than that for retinoic acid alone.

[Precancerous and cancerous lesions of the esophagus and forestomach in mice with skin exposure to a heavy catalytic gas oil]. / Predrakovye i rakovoe porazheniia pishchevoda i predzheludka u myshei pri nakozhnom vozdeistvii tiazhelym kataliticheskim gazoilem.

Painting with heavy catalytic gas oil was followed by skin tumor development in 97 (84.3%) mice: benign lesions--21 and carcinoma--76 cases. Pathologic changes in the upper part of the digestive tract were found in 55 out of 106 mice (51.9%): precancerous lesions (leukoplakia, dysplasia and papilloma) in 54 cases and cancer in one animal. Frequency of development of papilloma in the cardia was 27 times that in the esophagus. Multicentric growth was typical of precancerous lesions. Papilloma of the cardia was found in one control animal. Resorptive as well as direct action of gas oil seem to have been the causative factors of the development of precancerous and neoplastic lesions of the upper part of the gastrointestinal tract. The agent found its way into the digestive tract as animals licked each other in the course of the experiments.