Abstract
Prenatal and postnatal life stress could be a potent programmer of phenotype or disease state of an individual in the later life. Prenatal arsenic exposure has been shown to promote developmental defects, low birth weight, immunotoxicity and is associated with various cancers including skin cancer in adulthood. To investigate the association between prenatal arsenic exposure and adult life skin carcinogenesis, we used a two-stage cutaneous carcinogenesis model in which BALB/c mice were prenatally exposed to 0.04 mg/kg and 0.4 mg/kg arsenic (As). Exposure to arsenic was sufficient to shorten the tumor latency period and promote epidermal hyperplasia in the offspring upon challenge with dimethylbenz[a]/12-O-tetradecanoylphorbol-13-acetate (DMBA/TPA). The levels of inflammatory and tissue microenvironment remodeling factors such as IL-1α and TNF-α were persistently elevated in the skin, and their inhibition through diacerein led to a significant decrease in the tumor response, suggesting their role in tumorigenesis. While there was overexpression of multiple epigenetic regulators at tissue level, we found decreased enrichment of Polycomb repressive complex 2 (PRC2) member EZH2 and H3K27me3 mark at the upstream of the affected inflammatory genes. The higher expression of the inflammatory genes suggests the gene specific selective nature of EZH2 repression which was also associated with increased binding of the activator KDM6a (demethylase). Further, arsenic conditioned basal keratinocytes cells (BKCs) showed increased migration and proliferation along with higher expression of tumor associated cytokines. Inhibition of EZH2 in the BKCs lead to their further upregulation suggesting that BKCs might be the potential cell type for the interaction of EZH2 and inflammatory cytokines. The present study provides new evidence for the role of PRC2 group regulators in inflammatory conditioning and development of skin cancer in offspring prenatally exposed to arsenic.
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