Aflatoxin B 1 (AFB 1 ) and/or hepatitis B and C viruses are risk factors for human hepatocellular carcinoma (HCC). Available evidence supports the interpretation that formation of AFB 1 -DNA adducts in hepatocytes seeds a population of mutations, mainly G:C→T:A, and viral processes synergize to accelerate tumorigenesis, perhaps via inflammation. Responding to a need for early-onset evidence predicting disease development, highly accurate duplex sequencing was used to monitor acquisition of high-resolution mutational spectra (HRMS) during the process of hepatocarcinogenesis. Four-day-old male mice were treated with AFB 1 using a regimen that induced HCC within 72 wk. For analysis, livers were separated into tumor and adjacent cellular fractions. HRMS of cells surrounding the tumors revealed predominantly G:C→T:A mutations characteristic of AFB 1 exposure. Importantly, 25% of all mutations were G→T in one trinucleotide context (CGC; the underlined G is the position of the mutation), which is also a hotspot mutation in human liver tumors whose incidence correlates with AFB 1 exposure. The technology proved sufficiently sensitive that the same distinctive spectrum was detected as early as 10 wk after dosing, well before evidence of neoplasia. Additionally, analysis of tumor tissue revealed a more complex pattern than observed in surrounding hepatocytes; tumor HRMS were a composite of the 10-wk spectrum and a more heterogeneous set of mutations that emerged during tumor outgrowth. We propose that the 10-wk HRMS reflects a short-term mutational response to AFB 1 , and, as such, is an early detection metric for AFB 1 -induced liver cancer in this mouse model that will be a useful tool to reconstruct the molecular etiology of human hepatocarcinogenesis. duplex sequencing | mycotoxins | cancer | mutagenesis | mouse model
Global distribution of hepatocellular carcinomas (HCCs) is dominated by its incidence in developing countries, accounting for >700,000 estimated deaths per year, with dietary exposures to aflatoxin (AFB 1 ) and subsequent DNA adduct formation being a significant driver. Genetic variants that increase individual susceptibility to AFB 1 -induced HCCs are poorly understood. Herein, it is shown that the DNA base excision repair (BER) enzyme, DNA glycosylase NEIL1, efficiently recognizes and excises the highly mutagenic imidazole ring-opened AFB 1 -deoxyguanosine adduct (AFB 1 -Fapy-dG). Consistent with this in vitro result, newborn mice injected with AFB 1 show significant increases in the levels of AFB 1 -Fapy-dG in Neil1 −/− vs. wild-type liver DNA. Further, Neil1 −/− mice are highly susceptible to AFB 1 -induced HCCs relative to WT controls, with both the frequency and average size of hepatocellular carcinomas being elevated in Neil1 −/− . The magnitude of this effect in Neil1 −/− mice is greater than that previously measured in Xeroderma pigmentosum complementation group A (XPA) mice that are deficient in nucleotide excision repair (NER). Given that several human polymorphic variants of NEIL1 are catalytically inactive for their DNA glycosylase activity, these deficiencies may increase susceptibility to AFB 1 -associated HCCs.aflatoxin | base excision repair | ring-fragmented purines | liver cancer | environmental toxicant L iver cancers pose an international public health concern as the second leading cause of cancer-related deaths worldwide, with >700,000 estimated deaths per year (1-3). This mortality approaches its annual incidence throughout the world, highlighting the need for development of effective treatments and early diagnostic tools. HCCs represent the major histological subtype among liver cancers. The global distribution of HCCs is dominated by its incidence in developing countries, especially in eastern Asia and Africa, where two major chronic etiological factors drive this disease: (i) routine dietary exposures to grains and nuts that are contaminated with molds, Aspergillus flavus and Aspergillus parasiticus, which produce aflatoxins, and (ii) extremely high rates of hepatitis B (HBV) and C viral infections. In geographical regions of China where aflatoxin contamination of human food products is highest, there is a large shift in not only the age of onset of HCCs, but also in the incidence rate. Within Qidong, a significant number of HCCs occur in males beginning in their early 20s, with the frequency of HCCs peaking between the ages of 40 and 50 (4). These data are in contrast to HCC frequencies in portions of China, such as Beijing, where aflatoxin exposures are minimal. The kinetics of HCC formation in aflatoxin-affected areas are similar to that observed in early onset breast and ovarian cancers in women who are carriers (heterozygotic) for inactivating mutations in BRCA1 or 2.Although there are several different aflatoxin structures, AFB 1 has been demonstrated to be the most potent hepatoc...
It has become axiomatic that critical windows of susceptibility to genotoxins exist and that genetic damage in utero may be a trigger for later life cancers. Data supporting this critical window hypothesis are remarkably few. This study provides a quantitative bridge between DNA damage by the liver carcinogen aflatoxin B1 (AFB1) during prenatal development and the risk of later life genetic disease. AFB1 was given to pregnant C57BL/6J mice, carrying F1 gestation day 14 (GD14) embryos of the B6C3F1 genotype. Ultra-high performance liquid chromatography and mass spectrometry (UPLC-MS) using aflatoxin-15N5-guanine adduct standards afforded measurement of the AFB1-N7-Gua and AFB1-FAPY adducts six hours post dosing in liver DNA of mothers and embryos. A parallel cohort gave birth and the livers of the F1 were analyzed for mutations in the gpt gene at three and ten weeks of age. The data revealed mutational spectra dominated by G:C to T:A mutations in both the mother and offspring that are characteristic of AFB1 and distinct from background. It was shown that adducts in GD14 embryos were 20-fold more potent inducers of mutagenesis than adducts in parallel-dosed adults. This sensitivity enhancement correlated with Ki67 staining of the liver, reflecting the proliferative potential of the tissue. Taken together, these data provide insight into the relative genetic risks of prenatal and adult exposures to AFB1. Early life exposure, especially during the embryonic period, is strikingly more mutagenic than treatment later in life. Moreover the data provide a baseline against which risk prevention strategies can be evaluated.
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