BackgroundThere are strong indications for a causal association between areca-nut consumption and cancers. In Meghalaya, India, the variety of areca-nut is used as raw and unprocessed form whose chemical composition and pharmacological actions have been reported. Yet we know little on the initial pathway involved in areca-nut associated carcinogenesis since it is difficult to assess its effects on genetic alterations without interference of other compounding factors. Therefore, present study was undertaken in mice to verify the ability of raw areca-nut (RAN) to induce cancer and to monitor the expression of certain genes involved in carcinogenesis. This study was not intended to isolate any active ingredients from the RAN and to look its action.MethodsThree groups of mice (n = 25 in each) were taken and used at different time-points for different experimental analysis. The other three groups of mice (n = 15 in each) were considered for tumor induction studies. In each set, two groups were administered RAN-extract ad libitum in drinking water with or without lime. The expression of certain genes was assessed by conventional RT-PCR and immunoblotting. The mice were given the whole RAN-extract with and without lime in order to mimic the human consumption style of RAN.ResultsHistological preparation of stomach tissue revealed that RAN induced stomach cancer. A gradual increase in the frequency of precocious anaphase and aneuploid cells was observed in the bone marrow cells with a greater increment following RAN + lime administeration. Levels of p53, Bax, Securin and p65 in esophageal and stomach cells were elevated during early days of RAN exposure while those of different mitotic checkpoint proteins were downregulated. Apoptotic cell death was detected in non-cancerous stomach cells but not in tumor cells which showed overexpression of Bax and absence of PARP.ConclusionPresent study suggested (a) RAN induces stomach cancer, however, presence of lime promoted higher cell transformation and thereby developed cancer earlier, (b) perturbations in components of the chromosome segregation machinery could be involved in the initial process of carcinogenicity and (c) the importance of precocious anaphase as a screening marker for identification of mitotic checkpoint defects during early days.
Research over the years has generated enough evidence to implicate areca nut, as a carcinogen in humans. Besides oral, significant rise in the incidence of cancers of the oesophagus, liver and stomach was seen among areca nut chewers. Early diagnosis seems key to understand the initial processes of carcinogenesis which is highly curable. In North-East India, betel quid contains raw areca nut (RAN), lime and small portion of betel leaf without any other constituents. This study was not intended to isolate any active ingredients from the RAN and to look its action. The present objective is to validate the screening of precocious anaphase and analysis of expression of Securin and p53 in non-target cells like human peripheral blood lymphocytes (PBLs) and mouse bone marrow cells (BMCs) as early indicative parameters of RAN + lime-induced cancers. A total of 35 mice were examined at different time points for following ad libitum administration of RAN extract in drinking water with lime. Peripheral blood was collected from 32 human donors of which, 24 were RAN + lime heavy chewers. Expression of genes was assessed by immunoblotting and/or by immunohistochemistry. Histological preparation of stomach tissue of mice revealed that RAN + lime induced stomach cancer. A gradual increase in the frequency of precocious anaphases and aneuploid cells was observed in both RAN + lime-treated mouse BMC and human PBL of RAN heavy chewers. Levels of p53 and Securin were increased in these cells during early days of RAN + lime exposure. The level of Securin was significantly higher in human tumour samples than their adjacent normal counterpart. The expression of Securin was increased significantly in RAN + lime-administered mice as well as in stomach tumour. Present study revealed that precocious anaphase and expression of p53 and Securin in non-target cells are significantly associated with an increased risk of RAN-induced cancer and thus these parameters can be of early diagnostic value.
Background: Raw betel nut (RBN) chewing is an important contributing factor for esophageal squamous cell carcinoma (ESCC), although associated genomic changes remain unclear. One difficulty in assessing the effects of exclusively RBN induced genetic alterations has been that earlier studies were performed with samples of patients commonly using tobacco and alcohol, in addition to betel-quid. Both CDKN2A (at 9p21) and Rb1 gene (at 13q14.2) are regarded as tumor suppressors involved in the development of ESCC. Therefore, the present study aimed to verify the RBN's ability to induce ESCC and assess the involvement of CDKN2A and Rb1 genes.
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