Oral lesions, genotoxicity and nitrosamines in betel quid chewers with no obvious increase in oral cancer risk

A link between the generation of areca nut-related N-nitrosamines in the saliva, the induction of genotoxic damage in the oral mucosa, as judged by an increase in micronucleated exfoliated cells (MEC), and a low incidence of oral cancer was studied in 2 population groups characterized by their habit of chewing quids without tobacco: Guamanians, who chew areca nuts (Areca catechu) with or without the addition of betel leaf (Piper betle); Taiwanese, who use areca nut, betel leaf or inference and slaked lime. The levels of N-nitrosoguvacoline (NG) in the saliva of chewers of fresh green areca nuts were very high (70.8 ng/ml) as compared to those reported for individuals using the more complex Indian betel quids (0.91 ng/ml or 5.6 ng/ml). None of the other areca nut-related nitrosamines (N-nitrosoguvacine (NGC), 3-(methylnitrosamino)propionitrile (MNPN) and 3-(methylnitrosamino)propionaldehyde (MNPA)) were detected in the saliva of Taiwanese betel quid chewers. The addition of slaked lime to the areca nut enhances the formation of NG during a chewing session. The frequency of MEC did not increase in the oral mucosa of areca nut chewers who do not use slaked lime, but showed a small but significant elevation in individuals using lime-containing quids. The elevation of MEC in Taiwanese, who are at low risk for oral cancer, is relatively small as compared to that found in chewers of Indian betel quids (pan), who show a highly elevated oral cancer risk. The results seem to suggest that NG may play only a minor role, if any, in the etiology of oral cancer among betel quid chewers.     

Chromosome-damaging activity of saliva of betel nut and tobacco chewers

Saliva of volunteers chewing betel quid, cured betel nut (Areca catechu), betel leaves (Piper betle), a mixture of quid ingredients (dried betel nut flakes, catechu, cardamon, lime, copra and menthol) and Indian tobacco was collected and examined for its genotoxic activity. Chromosome aberrations (chromatid breaks and chromatid exchanges) in Chinese hamster ovary (CHO) cells were used to estimate the genotoxic effect. No detectable levels of clastogenic activity were observed in the saliva of non-chewing individuals. After 5 min of chewing betel quid, betel nut, betel leaves, quid ingredients and Indian tobacco, the saliva samples showed relatively potent clastogenic activities. The addition of transition metals Mn²⁺ and Cu²⁺ to the saliva samples of betel nut and Indian tobacco chewers enhanced their clastogenic activities, whereas Fe³⁺ increased the clastogenicity of the betel nut saliva but decreased the genotoxic effect of the saliva of Indian tobacco chewers. After removal of the betel quid or its components from the mouth, the clastogenic activity disappeared within 5 min. The western-type chewing tobacco did not produce a genotoxic activity in the saliva of chewers. A possible association between the genotoxicity in the saliva of betel quid chewers and the development of oral, pharyngeal and esophageal carcinomas is discussed.     

Promoting activity of betel quid ingredients and their inhibition by retinol

Ingredients of betel quids, which have been linked to the high incidence of precancerous oral lesions and oral cancers, were examined for their promoting activity. Aqueous extracts were tested using the bovine papillomavirus (BPV) DNA transformation assay, which consists of cultured C3H/10T1/2 cells transfected with the plasmid pdPBV-1 as targets, and the frequency of transformed foci as endpoints. Areca nut extracts enhanced the formation of BPV DNA-induced transformed foci approximately tenfold. No promoting activity was detected in two samples of chewing tobacco examined. The addition of retinol to the areca nut extract inhibited its tumour promoting effect in a dose-dependent manner, completely abolishing the promoting activity at a dose of 10(-6) M. The experimental results are compared with epidemiological data on oral cancer incidences among chewers of different areca nut/tobacco mixtures and with the chemopreventive effect of vitamin A administered to betel quid chewers.     

Ortho- and meta-tyrosine formation from phenylalanine in human saliva as a marker of hydroxyl radical generation during betel quid chewing

The habit of betel quid chewing, common in South-East Asia andthe South Pacific islands, is causally associated with an increasedrisk of oral cancer. Reactive oxygen species formed from polyphenolicbetel quid ingredients and lime at alkaline pH have been implicatedas the agents responsible for DNA and tissue damage. To determinewhether hydroxyl radical (HO) is generated in the human oralcavity during chewing of betel quid, the formation of o- andm-tyrosine from L-phenylalanine was measured, Both o- and m-tyrosinewere formed in vitro in the presence of extracts of areca nutand/or catechu, transition metal ions such as Cu²⁺ and Fe²⁺and lime or sodium carbonate (alkaline pH). Omission of anyof these ingredients from the reaction mixture significantlyreduced the yield of tyrosines. Hydroxyl radical scavengerssuch as ethanol, D-mannitol and dimethylsulfoxide inhibitedthe phenylalanine oxidation in a dose-dependent fashion. Fivevolunteers chewed betel quid consisting of betel leaf, arecanut, catechu and slaked lime (without tobacco). Their saliva,collected after chewing betel quid, contained high concentrationsof p-tyrosine, but no appreciable amounts of o- or m-tyrosine.Saliva samples from the same subjects after chewing betel quidto which 20 mg phenylalanine had been added contained o- andm-tyrosine at concentrations ranging from 1010 to 3000 nM andfrom 1110 to 3140 nM respectively. These levels were significantlyhigher (P< 0.005) than those of subjects who kept phenylalaninein the oral cavity without betel quid, which ranged from 14to 70 nM for o-tyrosine and from 10 to 35 nM for m-tyrosine.These studies clearly demonstrate that the HO radical is formedin the human oral cavity during betel quid chewing and is probablyimplicated in the genetic damage that has been observed in oralepithelial cells of chewers.     

Role of areca nut consumption in the cause of oral cancers. A cytogenetic assessment.

BACKGROUND. Cytogenetic studies, framed to assess the possible genomic damage caused by areca nut consumption (without tobacco and not as a component of betel quid), were performed among areca nut chewers, which included normal people who chew areca nuts, patients with oral submucous fibrosis, and patients with oral cancer, and healthy nonchewing controls. RESULTS. The analysis showed statistically significant increases in the frequencies of sister chromatid exchanges and chromosome aberrations in peripheral blood lymphocytes and the percentage of micronucleated cells in exfoliated cells of buccal mucosa among all three groups of chewers when compared with those of the controls. CONCLUSIONS. The current data, the first of this type among only areca nut chewers, highlight that this popular masticatory is erroneously considered "safe" and that it increases the genomic damage even when chewed without tobacco. The data also signify that, henceforth, in cytogenetic biomonitoring, areca nut consumption also should be considered as one of the confounding factors.     

Cytotoxic and genotoxic effects of areca nut-related compounds in cultured human buccal epithelial cells

Because betel quid chewing has been linked to the development of oral cancer, pathobiological effects of an aqueous areca nut extract, four areca nut alkaloids (arecoline, guvacoline, guvacine, and arecaidine), and four nitrosated derivatives [N-nitrosoguvacoline, N-nitrosoguvacine, 3-(N-nitrosomethylamino)propionaldehyde and 3-(N-nitrosomethylamino)propionitrile] have been investigated using cultured human buccal epithelial cells. Areca nut extract in a dose-dependent manner decreases cell survival, vital dye accumulation, and membrane integrity, and it causes formation of both DNA single strand breaks and DNA protein cross-links. Depletion of cellular free low-molecular-weight thiols also occurs, albeit at quite toxic concentrations. Comparisons of the areca nut-related N-nitroso compounds and their precursor alkaloids, at concentrations up to 5 mM, indicate that 3-(N-nitrosomethylamino)propionaldehyde is the most potent on a molar basis to decrease both survival and thiol content and to cause significant formation of DNA single strand breaks. Arecoline, guvacoline, or N-nitrosoguvacoline decreases survival and cellular thiols, whereas arecaidine, guvacine, N-nitrosoguvacine, and 3-(N-nitrosomethylamino)propionitrile have only minor effects on these variables. Taken together, the present studies indicate that aqueous extract and, in particular, one N-nitroso compound related to areca nut, i.e., 3-(N-nitrosomethylamino)propionaldehyde, are highly cytotoxic and genotoxic to cultured human buccal epithelial cells, of potential importance in the induction of tumors in betel quid chewers.     

Tobacco (Kretek) Smoking,Betel Quid Chewing and Risk of Oral Cancer in a Selected Jakarta Population

Purpose: This study aimed to determine the association between tobacco consumption (kretek) and betel quidchewing with oral cancer risk. Materials and Methods: A total of 81 cases of oral cancers were matched with162 controls in this hospital-based study. Information on sociodemographic characteristics and details of riskhabits (duration, frequency and type of tobacco consumption and betel quid chewing) were collected. Associationbetween smoking and betel quid chewing with oral cancer were analysed using conditional logistic regression.Results: Slightly more than half of the cases (55.6%) were smokers where 88.9% of them smoked kretek. Afteradjusting for confounders, smokers have two fold increased risk, while the risk for kretek consumers and thosesmoking for more than 10 years was increased to almost three-fold. Prevalence of betel quid chewing among casesand controls was low (7.4% and 1.9% respectively). Chewing of at least one quid per day, and quid combinationof betel leaf, areca nut, lime and tobacco conferred a 5-6 fold increased risk. Conclusions: Smoking is positivelyassociated with oral cancer risk. A similar direct association was also seen among betel quid chewers.     

Cytotoxic Effects of Betel Quid and Areca Nut Aqueous Extracts on Mouse Fibroblast,Human Mouth-Ordinary-Epithelium 1 and Human Oral Squamous Cell Carcinoma Cell Lines

Background: Betel quid chewing is more common among the older generation in rural areas of Malaysia. Oral cancer in Asia has been associated with the habit of chewing betel quid and areca nut. Objective:  This study aims to investigate the cytotoxic effects of betel quid and areca nut extracts on the fibroblast (L929), mouth-ordinary-epithelium 1 (MOE1) and oral squamous cell carcinoma (HSC-2) cell lines. Methods: L929, MOE1 and HSC-2 cells were treated with 0.1, 0.2 and 0.4 g/ml of betel quid and areca nut extracts for 24, 48 and 72 h. MTT assay was performed to assess the cell viability. Results: Both extracts, regardless of concentration, significantly reduced the cell viability of L929 compared with the control (P<0.05). Cell viability of MOE1 was significantly enhanced by all betel quid concentrations compared with the control (P<0.05). By contrast, 0.4 g/ml of areca nut extract significantly reduced the cell viability of MOE1 at 48 and 72 h of incubation. Cell viability of HSC-2 was significantly lowered by all areca nut extracts, but 0.4 g/ml of betel quid significantly increased the cell viability of HSC-2 (P<0.05). Conclusion: Areca nut extract is cytotoxic to L929 and HSC-2, whereas the lower concentrations of areca nut extract significantly increased the cell viability of MOE1 compared to the higher concentration and control group. Although betel quid extract is cytotoxic to L929, the same effect is not observed in MOE1 and HSC-2 cell lines. Further investigations are needed to clarify the mechanism of action.     

Formation of reactive oxygen species and of 8-hydroxy-2'-deoxyguanosine in DNA in vitro with betel-quid ingredients

Using a chemiluminescence technique, superoxide anion (O2-.) and H2O2 were shown to be formed in vitro, above pH 9.5, from betel-quid (BQ) ingredients, such as areca-nut extract and catechu. The formation of O2-. was enhanced by Fe2+, Fe3+ and Cu2+ and inhibited by Mn2+. Saliva was found to inhibit both O2-. and H2O2 formation from BQ ingredients. Upon incubation of DNA at alkaline pH with areca-nut extract or catechu, in the presence or absence of Fe3+, 8-hydroxy-2'-deoxyguanosine was formed, as quantified by high-performance liquid chromatography. The data suggest a possible role of reactive oxygen species (ROS) in the etiology of oral cancer in betel quid chewers.     

Piper betel Linn (betel vine), the maligned Southeast Asian medicinal plant possesses cancer preventive effects: time to reconsider the wronged opinion

Since antiquity, Piper betel Linn (betel vine; family Piperaceae) has been an important medicinal agent in the various traditional and folk systems of medicine in Southeast Asia countries. The leaves are the most valued plant part and in the past were routinely used as a chewing agent to prevent halitosis. The leaves are also supposed to harden the gum, conserve the teeth and to prevent indigestion, bronchitis, constipation, congestion, coughs and asthma. Innumerable scientific studies have validated the ethnomedicinal claims. Betel leaves are an integral component of the betel quid that consists of areca nut (Areca catechu Linn.), tobacco (Nicotiana tabacum L) and slaked lime; a highly abused agent with carcinogenic properties. Regular chewing of betel quid is associated mainly with oral cancer and detail studies with individual constituents of the quid have shown that both tobacco and areca nut are carcinogenic, while slaked lime is shown to promote the process of carcinogenesis. However unlike other constituents of the betel quid, the betel leaves devoid carcinogenic effects and on the contrary possesses cancer preventive effects including against the carcinogens present in tobacco. This review for the first time provides information on cancer preventive effects and also addresses the various mechanisms which might be involved.     

Elevated frequency of micronucleated cells in the buccal mucosa of individuals at high risk for oral cancer: betel quid chewers

The micronucleus test was applied to buccal mucosa cells of 2 population groups at high risk for oral cancer: Khasis of the northeastern hill region of India, who eat raw betel nuts together with betel leaves and lime, and residents of the state of Orissa (India), who chew betel quids consisting mainly of perfumed tobacco, dried betel nut, betel leaf, lime and several spices. Micronuclei were scored on Feulgen/fast green-stained smear preparations of exfoliated cells obtained by scraping the surface of the buccal mucosa. All 17 raw betel nut eaters and all 20 chewers of betel quids had significantly elevated frequencies of micronucleated mucosa cells over nonchewing controls of comparable ethnic background and dietary habits. The frequencies of micronucleated exfoliated cells were higher at the site within the oral cavity where the quid was kept compared to those at the opposite buccal wall. The micronuclei frequency was lower among individuals chewing a raw betel nut, betel leaf and lime mixture compared to those using tobacco,-betel nut-, lime- and betel leaf-containing quids. Micronuclei frequencies in exfoliated human cells seem to represent a useful 'internal dosimeter' for estimating exposure to genotoxic, and by implication, carcinogenic agents in the tissue from which cancers will develop.     

Use of the micronucleus test to monitor the effect of vitamin A, beta-carotene and canthaxanthin on the buccal mucosa of betel nut/tobacco chewers

The frequency of exfoliated cells with micronuclei in buccal swabs was used to estimate the protective effect of vitamin A, beta-carotene and canthaxanthin (4,4'-diketo-beta-carotene) on the buccal mucosa of betel (areca) nut/tobacco chewers. Micronuclei were scored on exfoliated cells taken by swabbing and stained with the Feulgen reaction and fast green. The betel (areca) nut/tobacco chewers served as their own controls. Prior to the administration of vitamin A and beta-carotene, the examined betel quid chewers had elevated frequencies of micronucleated buccal mucosa cells, averaging 4.03% +/- 1.24 SD (n = 26) and 3.43% +/- 1.22 SD (n = 25), respectively. The frequency of micronucleated buccal mucosa cells in non-chewers and non-smokers was 0.51% (n = 52). Following a 9-week ingestion of vitamin A (150,000 IU/week) and beta-carotene (180 mg/week in 6 capsules), the frequency of micronucleated cells decreased significantly (p less than 0.001) to 1.70% and 1.16%, respectively. No significant shift in the frequencies of micronucleated cells was observed following the intake of canthaxanthin (180 mg/week in 6 capsules) for 9 weeks or that of a placebo. The lack of protective activity of canthaxanthin, which is a good trapper of oxygen singlets but cannot be converted into vitamin A, suggests that vitamin A and beta-carotene exert their inhibitory effect on the formation of micronuclei by a mechanism not involving the scavenging of free radicals. The efficacy of beta-carotene as an inhibitor of micronucleated cell formation, the lack of toxicity, and its availability from a multitude of dietary sources should focus attention on this carotenoid as a promising chemopreventive agent.     

Tobacco-specific and betel nut-specific N-nitroso compounds: occurrence in saliva and urine of betel quid chewers and formation in vitro by nitrosation of betel quid

In order to evaluate exposure of betel quid chewers to N-nitrosocompounds, saliva and urine samples were collected from chewersof betel quid with or without tobacco, from tobacco chewers,from cigarette smokers and from people with no such habit, andwere analysed for the presence of N-nitrosamines by gas chromatographycoupled with Thermal Energy Analyzer and alkaloids derived frombetel nut and tobacco by capillary gas chromatography fittedwith nitrogen-phosphorous selective detector. The levels ofthe betel nut-specific nitrosamines, N-nitrosoguvacoline andN-nitrososoguvacine (the latter being detected for the firsttime in saliva), ranged from 0 to 7.1 and 0 to 30.4 ng/ml, respectively.High levels of tobacco-specific nitrosamines were detected inthe saliva of chewers of betel quid with tobacco and in thatof chewers of tobacco, ranging from 1.6 to 59.7 (N'-nitrosonornicotine),1.0 to 51.7 (N'-nitrosoanatabine) and 0 to 2.3 [4-(methyl-nitrosamino)-1-(3-pyridyl)-l-butanone]ng/ml. Urinary concentrations of certain N-nitrosamino acids,including N-nitrosoproline, were determined as a possible indexof exposure to nitroso compounds and their precursors in thestudy groups: no clear difference was observed. The betel nut-specificalkaloid, arecoline, was present at high levels in the salivaof betel quid chewers with or without tobacco. Nicotine andcotinine were also detected in saliva and urine of chewers oftobacco and of betel quid with tobacco. In order to assess whetherN-nitroso compounds are formed in vivo in the oral cavity duringchewing or in the stomach after swallowing the quids, the levelsof N-nitroso compounds in betel quid extracts were determinedbefore and after nitrosation at pH 7.4 and 2.1. The resultsindicate that N-nitroso compounds could easily be formed invivo. The possible role of N-nitroso compounds in the causationof cancer of the upper alimentary tract in betel quid chewersis discussed.     

A study of betel quid carcinogenesis. II. Formation of N-nitrosamines during betel quid chewing

In model studies, nitrosation of the major areca alkaloid, arecoline, leads to the formation of N-nitrosoguvacoline, 3-(methylnitrosamino)propionitrile (MNPN), 3-(methylnitrosamino)propionaldehyde and two unknown N-nitrosamines. MNPN is a strong carcinogen in Fischer 344 rats. After subcutaneous injection of 1.1 mmol MNPN in 60 doses, all 15 male and 15 female rats developed tumours within 24 weeks; multiple tumours occurred in 26 of the rats. Eighty-seven percent of the animals had tumours of the oesophagus, 70% had nasal cavity tumours, 37% had tumours of the tongue, 7% tumours of the pharynx and 7% tumors of the forestomach. At the dose used, male and female rats showed no significant difference in tumour incidence or site of tumours. The formation of MNPN during betel quid chewing, although likely, has not yet been proven, while the areca-derived N-nitrosamine, N-nitrosoguvacoline (NG), has been found in the saliva of betel quid chewers at levels of 2.2-348 micrograms/L. N-Nitrosoguvacoline levels were higher in the saliva of chewers who used betel quid together with tobacco. The saliva of these chewers also contained tobacco-specific N-nitrosamines.     

Oral submucous fibrosis: review on aetiology and pathogenesis

Data from recent epidemiological studies provide overwhelming evidence that areca nut is the main aetiological factor for OSF. A clear dose-dependent relationship was observed for both frequency and duration of chewing areca nut (without tobacco) in the development of OSF. Commercially freeze dried products such as pan masala, Guthka and mawa (areca and lime) have high concentrates of areca nut per chew and appear to cause OSF more rapidly than by self prepared conventional betel quid that contain smaller amounts of areca nut. It is logical to hypothesise that the increased collagen synthesis or reduced collagen degradation as possible mechanisms in the development of the disease. There are numerous biological pathways involved in the above processes and, it is likely that the normal regulatory mechanisms are either down regulated or up regulated at different stages of the disease. Among the chemical constituents, alkaloids from areca nut are the most important biologically whilst tannin may have a synergistic role. These chemicals appear to interfere with the molecular processes of deposition and/or degradation of extracellular matrix molecules such as collagen. In vitro studies on human fibroblasts using areca extracts or chemically purified arecoline support the theory of fibroblastic proliferation and increased collagen formation that is also demonstrable histologically in human OSF tissues. The copper content of areca nut is high and the possible role of copper as a mediator of fibrosis is supported by the demonstration of up regulation of lysyl oxidase in OSF biopsies. It has been postulated that areca nut may also induce the development of the disease by increased levels of cytokines in the lamina propria. Increased and continuous deposition of extracellular matrix may take place as a result of disruption of the equilibrium between matrix metalloproteinases (MMPs) and tissue inhibitors of matrix metalloproteinases (TIMP). Current evidence implicates collagen-related genes in the susceptibility and pathogenesis of OSF. The individual mechanisms operating at various stages of the disease-initial, intermediate and advanced-need further study in order to propose appropriate therapeutic interventions.     

Betel quid chewing and oral cancer: experimental studies on hamsters

Betel quid ingredients--betel nut, betel leaf, lime, catechu and tobacco--were tested separately and in various combinations for carcinogenicity, using hamster cheek pouch as the experimental site. The four modes of administration used were (1) tri-weekly painting of the cheek pouch with aqueous extracts of test materials, (2) deposition of replaceable wax pellets containing the test material, (3) gelatin capsules containing the powdered material and (4) insertion of natural material into the pouch for trauma and direct exposure. Untreated controls and standard carcinogen DMBA-treated controls were also maintained. A total of 317 young adult golden Syrian hamsters (Mesocricetus auratus) used for the experiments were killed in two age groups: 6-12 months and 13-24 months, only when signs of general debility were observed. In the untreated controls, animals were free of any malignancy. In the experimental series, various betel quid ingredient combinations under test induced both oral and gastric lesions ranging from massive atypia and precancerous lesions to frank carcinomas. Maximum lesions were observed in the groups receiving betel nut, lime and tobacco combinations and in the polyphenol fraction of betel nut containing major tannins. The mode of administration of test material resulted in distinct differences; tri-weekly paintings giving oral lesions in the range of 22-23% and gastric lesions 39-48%; the same material given either through the replaceable gelatin capsule or in natural form induced 69% oral lesions and 63 to 82% gastric lesions. Overall evaluation of the data of all the four series confirms the potent carcinogenicity of betel nut, particularly its tannin-containing polyphenolic fraction and its combination with lime and tobacco. Maximum oral lesions induced in the hamsters by continuous exposure to capsules and natural material, highlight the direct relationship of frequency of chewing in habitual chewers with oral carcinogenesis. The high incidence of gastric (forestomach) lesions invites special attention.     

O6-methylguanine-DNA methyltransferase activity in human buccal mucosal tissue and cell cultures. Complex mixtures related to habitual use of tobacco and betel quid inhibit the activity in vitro

Extracts prepared from tissue specimens of normal, non-tumourous human buccal mucosa, and cultured buccal epithelial cells and fibroblasts, exhibited O6-methylguanine-DNA methyltransferase (MGMT) activity by catalysing the repair of the premutagenic O6-methylguanine lesion in isolated DNA with rates of 0.2 to 0.3 pmol/mg protein. An SV40 T antigen-immortalized buccal epithelial cell line termed SVpgC2a and a buccal squamous carcinoma line termed SqCC/Y1, both of which lack normal tumour suppressor gene p53 function, exhibited about 50 and 10% of the MGMT activity of normal cells, respectively. The normal, experimentally transformed and tumourous buccal cell types showed MGMT mRNA levels which correlated with their respective levels of MGMT activity. Exposure of buccal cell cultures to various organic or water- based extracts of products related to the use of tobacco and betel quid, decreased both cell survival (measured by reduction of tetrazolium dye) and MGMT activity (measured subsequently to the exposures in cellular extracts). Organic extracts of bidi smoke condensate and betel leaf showed higher potency than those of tobacco and snuff. An aqueous snuff extract also decreased both parameters, whereas an aqueous areca nut extract was without effect. The well- established sulph-hydryl-reactive agent Hg2+, a corrosion product of dental amalgam, served as a positive control and decreased MGMT activity following treatment of cells within a range of 1-10 microM. Taken together, significant MGMT activities were demonstrated in buccal tissue specimens and in the major buccal mucosal cell types in vitro. Lower than normal MGMT activity in two transformed buccal epithelial cell lines correlated with decreased MGMT mRNA and lack of functional p53. Finally, in vitro experiments suggested the potential inhibition of buccal mucosal MGMT activity by complex mixtures present in the saliva of tobacco and betel nut chewers.      

Cell transformation induced by bovine papillomavirus DNA as an assay for tumor promoters and chemopreventive agents.

An in vitro assay was designed to examine and quantitate the action of chemical promoters and chemopreventive agents on papillomavirus DNA-carrying cells. Cultured C3H/10T1/2 cells transfected with bovine papillomavirus type 1 DNA (plasmid pdBPV-1) were used as targets, and the frequency of transformed foci was used as an endpoint. The development of foci with a transformed phenotype was greatly enhanced by tumor promoters (e.g., mezerein, 12-O-tetradecanoyl-phorbol-13-acetate, teleocidin, and okadaic acid) and complex mixtures such as extracts of the areca nut, which is an integral part of a betel quid and is linked to oral cancers among chewers. The degree of promotion depended on the length of exposure, the type of promoter, and the time of application after transfection with BPV DNA. The inhibitory effect of chemopreventive agents on transformation can be tested either directly on BPV DNA transfected cells (promoter-independent transformation), or on transfected cells that were exposed to tumor promoters (promoter-dependent transformation). Retinol, and to a lesser degree beta-carotene, exerted an inhibitory effect on promoter-dependent and promoter-independent transformation of BPV DNA transfected cells. The inhibitory effect was conveyed either by the addition of retinol simultaneously with promoters, or after exposure to the promoting agents was completed. The significance of this short-term in vitro assay for the design of chemopreventive trials is discussed.     

Chromosomal alterations affecting the 1cen-1q12 region in buccal mucosal cells of betel quid chewers detected using multicolor fluorescence in situ hybridization

Epidemiological studies have shown that a high incidence of oral cancers is associated with chewing betel quid. Since chromosomal aberrations are involved in many types of cancers, we investigated whether increased frequencies of chromosomal alterations could be detected in the oral mucosa cells of betel quid chewers as compared to non-chewers. Due to the difficulty in culturing these epithelial cells, we used multicolor FISH with adjacent DNA probes to detect hyperdiploidy and breakage/exchanges affecting the 1cen-q12 region in interphase cells. Buccal mucosa cells from 19 male betel quid chewers and 23 non-chewers were hybridized and 1000 cells per donor were evaluated. A highly significant increase in the frequency of breakage affecting 1cen-1q12 region was observed in the mucosa cells of the chewers as compared to the non-chewers. A good correlation was also seen between breakage and duration of chewing. A modest increase in hyperdiploidy for chromosome 1 was also observed among chewers who had used betel quid for many years. These results indicate that this FISH approach can be useful for human biomonitoring, particularly for detecting alterations in non-dividing cells.      

The precancer risk of betel quid chewing,tobacco use and alcohol consumption in oral leukoplakia and oral submucous fibrosis in southern Taiwan

In areas where the practise of betel quid chewing is widespread and the chewers also often smoke and drink alcohol, the relation between oral precancerous lesion and condition to the three habits is probably complex. To explore such association and their attributable effect on oral leukoplakia (OL) and oral submucous fibrosis (OSF), a gender-age-matched case-control study was conducted at Kaohsiung, southern Taiwan. This study included 219 patients with newly diagnosed and histologically confirmed OL or OSF, and 876 randomly selected community controls. All information was collected by a structured questionnaire through in-person interviews. A preponderance of younger patients had OSF, while a predominance of older patients had OL. Betel quid chewing was strongly associated with both these oral diseases, the attributable fraction of OL being 73.2% and of OSF 85.4%. While the heterogeneity in risk for areca nut chewing across the two diseases was not apparent, betel quid chewing patients with OSF experienced a higher risk at each exposure level of chewing duration, quantity and cumulative measure than those who had OL. Alcohol intake did not appear to be a risk factor. However, cigarette smoking had a significant contribution to the risk of OL, and modified the effect of chewing based on an additive interaction model. For the two oral premalignant diseases combined, 86.5% was attributable to chewing and smoking. Our results suggested that, although betel quid chewing was a major cause for both OL and OSF, its effect might be difference between the two diseases. Cigarette smoking has a modifying effect in the development of oral leukoplakia.