Cellular Responses to Aflatoxin-Associated DNA Adducts

Fasullo, Michael

doi:10.5772/intechopen.81763

Cited by 3 publications

(2 citation statements)

References 134 publications

(233 reference statements)

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“…Rats closely mimic human AFB1 metabolite‐induced DNA adduct formation, glutathione‐based detoxification mechanisms, and develop hepatocellular carcinomas secondary to aberrations in NER. Mice, on the other hand, have inherent limitations when compared with human AFB1 metabolism and liver detoxification (Fasullo, 2018; Taguchi et al, 2016; Wild & Turner, 2002). NER is quite effective in mice secondary to AFB1 exposure.…”

Section: Introductionmentioning

confidence: 99%

Whole exome and transcript profiling of liver following aflatoxin B1 exposure in rats

Foley

Elgart

Phadke

et al. 2023

J of Applied Toxicology

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We recently developed a rat whole exome sequencing (WES) panel and used it to evaluate early somatic mutations in archival liver tissues from F344/N rats exposed to the hepatocarcinogen, Aflatoxin B1 (AFB1), a widely studied, potent mutagen and hepatocarcinogen associated with hepatocellular carcinoma (HCC). Rats were exposed to 1-ppm AFB1 in feed for 14, 90, and 90 days plus a recovery 60-day, nonexposure period (150-day) timepoint. Isolated liver DNA was exome sequenced. We identified 172 sequence variants across all timepoints, of which 101 were nonsynonymous variants. Well-annotated genes carried a diverse set of 29 nonsynonymous mutations at 14 days, increasing to 39 mutations at 90 days and then decreasing to 33 mutations following the 60-day recovery. Gene Set Enrichment Analysis conducted on previously reported, available RNA expression data of the same exome sequenced archival samples identified altered transcripts in pathways associated with malignant transformation. These included HALLMARK gene sets associated with cell proliferation (MYC Targets Version 1 and Version 2, E2F targets), cell cycle (G2M checkpoint, mitotic spindle), cell death (apoptosis), and DNA damage (DNA repair, UV response Up, Reactive oxygen species) pathways. DriverNet Impact analysis integrated exome-seq and expression data to reveal somatic mutations in Mcm8, Bdp1, and Cct6a that may drive cancer formation. Connectivity with transcript expression changes identified these genes as the top-ranked candidate driver genes associated with hepatocellular transformation. In conclusion, exome sequencing revealed early somatic mutations that may play a role in cancer cell transformation that are translatable to aflatoxin-induced HCC.

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Section: Introductionmentioning

confidence: 99%

Whole exome and transcript profiling of liver following aflatoxin B1 exposure in rats

Foley

Elgart

Phadke

et al. 2023

J of Applied Toxicology

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“…Once inside the cell, the stable form of AB1 is metabolized by the enzyme cytochrome P450, resulting in the production of highly unstable aflatoxin-8, 9-epoxide. In this unstable form, the toxin binds to DNA molecules to gain stability at high affinity causing the formation of aflatoxin-N7-guanine [ 11 ]. At this point, a transversion mutation takes place where a guanine (G) base will be transversed to a thymine (T) base [ 12 ].…”

Section: Introductionmentioning

confidence: 99%

The Effect of Aflatoxin B1 on Tumor-Related Genes and Phenotypic Characters of MCF7 and MCF10A Cells

Adam

Kamal

Kanakal³

et al. 2022

IJMS

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The fungal toxin aflatoxin B1 (AB1) and its reactive intermediate, aflatoxin B1-8, 9 epoxide, could cause liver cancer by inducing DNA adducts. AB1 exposure can induce changes in the expression of several cancer-related genes. In this study, the effect of AB1 exposure on breast cancer MCF7 and normal breast MCF10A cell lines at the phenotypic and epigenetic levels was investigated to evaluate its potential in increasing the risk of breast cancer development. We hypothesized that, even at low concentrations, AB1 can cause changes in the expression of important genes involved in four pathways, i.e., p53, cancer, cell cycle, and apoptosis. The transcriptomic levels of BRCA1, BRCA2, p53, HER1, HER2, cMyc, BCL2, MCL1, CCND1, WNT3A, MAPK1, MAPK3, DAPK1, Casp8, and Casp9 were determined in MCF7 and MCF10A cells. Our results illustrate that treating both cells with AB1 induced cytotoxicity and apoptosis with reduction in cell viability in a concentration-dependent manner. Additionally, AB1 reduced reactive oxygen species levels. Phenotypically, AB1 caused cell-cycle arrest at G1, hypertrophy, and increased cell migration rates. There were changes in the expression levels of several tumor-related genes, which are known to contribute to activating cancer pathways. The effects of AB1 on the phenotype and epigenetics of both MCF7 and MCF10A cells associated with cancer development observed in this study suggest that AB1 is a potential risk factor for developing breast cancer.

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Antidotes to aflatoxicosis in humans

Kumar,

Akhtar

2024

Antidotes to Toxins and Drugs

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Cellular Responses to Aflatoxin-Associated DNA Adducts

Cited by 3 publications

References 134 publications

Whole exome and transcript profiling of liver following aflatoxin B1 exposure in rats

Whole exome and transcript profiling of liver following aflatoxin B1 exposure in rats

The Effect of Aflatoxin B1 on Tumor-Related Genes and Phenotypic Characters of MCF7 and MCF10A Cells

Antidotes to aflatoxicosis in humans

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