Germ-line mutations, DNA damage, and global hypermethylation in mice exposed to particulate air pollution in an urban/industrial location

Yauk, Carole L.; Polyzos, Aris; Rowan-Carroll, Andrea; Somers, Christopher M.; Godschalk, Roger; Schooten, Frederik J. van; Berndt, Mathias; Pogribny, Igor P.; Koturbash, Igor; Williams, Andrew; Douglas, George R.; Kovalchuk, Olga

doi:10.1073/pnas.0705896105

Cited by 277 publications

(220 citation statements)

References 75 publications

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“…The difference between the adduct levels in testes and lung tissue was found previously [Yauk et al, 2008]. It is possible that B[a]P does not reach the testes as well as lung tissue after exposure by oral gavage, and/or that testes may contain lower concentrations of enzymes converting B[a]P into DNA binding derivatives.…”

Section: Discussionsupporting

confidence: 54%

DNA adduct kinetics in reproductive tissues of DNA repair proficient and deficient male mice after oral exposure to benzo(a)pyrene

Verhofstad

Oostrom

Benthem

et al. 2009

Environ and Mol Mutagen

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Benzo(a)pyrene (B[a]P) can induce somatic mutations, whereas its potential to induce germ cell mutations is unclear. There is circumstantial evidence that paternal exposure to B[a]P can result in germ cell mutations. Since DNA adducts are thought to be a prerequisite for B[a]P induced mutations, we studied DNA adduct kinetics by 32 P-postlabeling in sperm, testes and lung tissues of male mice after a single exposure to B[a]P (13 mg/kg bw, by gavage). To investigate DNA adduct formation at different stages of spermatogenesis, mice were sacrificed at Day 1, 4, 7, 10, 14, 21, 32, and 42 after exposure. In addition, DNA repair deficient (Xpc 2/2 ) mice were used to study the contribution of nucleotide excision repair in DNA damage removal. DNA adducts were detectable with highest levels in lung followed by sperm and testis. Maximum adduct levels in the lung and testis were observed at Day 1 after exposure, while adduct levels in sperm reached maximum levels at 1 week after exposure. Lung tissue and testis of Xpc 2/2 mice contained significantly higher DNA adduct levels compared to wild type (Wt) mice over the entire 42 day observation period (P < 0.05). Differences in adduct half-life between Xpc 2/2 and Wt mice were only observed in testis. In sperm, DNA adduct levels were significantly higher in Xpc 2/2 mice than in Wt mice only at Day 42 after exposure (P 5 0.01). These results indicate that spermatogonia and testes are susceptible for the induction of DNA damage and rely on nucleotide excision repair for maintaining their genetic integrity. Environ. Mol. Mutagen. 51:123-129, 2010. V V C 2009 Wiley-Liss, Inc.

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Section: Discussionsupporting

confidence: 54%

DNA adduct kinetics in reproductive tissues of DNA repair proficient and deficient male mice after oral exposure to benzo(a)pyrene

Verhofstad

Oostrom

Benthem

et al. 2009

Environ and Mol Mutagen

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“…39 These and our findings are in line with the global hypermethylation found in the sperm of mice exposed for 3 weeks to particulate air pollution of urban/ industrial source, in which PAH exposure was confirmed by the presence of elevated PAH-DNA adduct levels in the mice lungs. 15 Moreover, following in vitro chronic exposure to B[a]P, global DNA hypermethylation was associated to DNMT1 overexpression in mouse embryonic fibroblasts. 14 DNMTs (chiefly DNMT1) were found upregulated during DNA damage and bind with high affinity to DNA lesions.…”

Section: Discussionmentioning

confidence: 99%

“…13 Global DNA hypermethylation following in vitro chronic exposure to B[a]P was recently revealed in mouse embryonic fibroblasts and was associated to mutation as a consequence of genetic instability. 14,15 PBLs, although not considered target cells for PAH(B[a]P)-induced lung tumorigenesis, can be easily obtained from human subjects and their genetic (PAH(B[a]P)-DNA adducts) and epigenetic alterations (methylation) are correlated with levels in target tissues (e.g., lung). [16][17][18] Moreover, high levels of adduct and micronuclei (as markers of chromosome instability 19 ) and p53 hypomethylation in PBLs are predictive of lung cancer risk.…”

mentioning

confidence: 99%

Global and gene‐specific promoter methylation changes are related to anti‐B[a]PDE‐DNA adduct levels and influence micronuclei levels in polycyclic aromatic hydrocarbon‐exposed individuals

Pavanello

Bollati

Pesatori

et al. 2009

Intl Journal of Cancer

139

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We investigated the effect of chronic exposure to polycyclic aromatic hydrocarbons (PAHs) on DNA methylation states (percentage of methylated cytosines (%mC)) in Polish male nonsmoking coke-oven workers and matched controls. Methylation states of gene-specific promoters (p53, p16, HIC1 and IL-6) and of Alu and LINE-1 repetitive elements, as surrogate measures of global methylation, were quantified by pyrosequencing in peripheral blood lymphocytes (PBLs). DNA methylation was evaluated in relation to PAH exposure, assessed by urinary 1-pyrenol and anti-benzo [a] We found that Alu and LINE-1 methylation levels and those of the inflammatory cytokine IL-6, to a lesser extent, were higher in polycyclic aromatic hydrocarbon (PAH)-exposed coke-oven workers than controls (p < 0.001 and p 5 0.094). Conversely, methylation of p53 and HIC1 tumor suppressors was lower in workers compared with controls (p < 0.001 and p < 0.05). Global and IL-6 hypermethylation and p53 hypomethylation were significantly correlated, not only to PAH-exposure (urinary 1-pyrenol) but also to the anti-B[a]PDE-DNA adduct levels (p < 0.01). Overall, linear multivariate regression analysis showed that the only significant determinant of increasing micronuclei (MN) (p < 0.01) was p53 hypomethylation and not the other LINE-1, Alu, p53, HIC1 and IL-6 methylation states.Gene-specific promoters (mainly p53) and global (Alu and LINE-1 repeats) DNA methylation changes in circulating peripheral blood lymphocytes (PBLs), related to anti-B[a]PDE-DNA adduct and MN, suggest that these events could be determined to identify subjects at high cancer risk.Understanding how environmental factors are involved in cancer etiology and development is one of the main goals of biomedical research. 1 Extensive research has been conducted to determine how known or potential environmental carcinogens modify the DNA sequence, as a component of malignant transformation. However, an investigative approach exclusively based on genetic damage, as well as on inheritance of genetic variants, has been revealed to be insufficient to account for multistage carcinogenic processes. 2 It has been proposed that DNA methylation, one of the best known epigenetic mechanisms, shares critical roles with DNA mutations in the theoretical continuum for exposure to cancer. 3,4 One potential mechanism for environmental factors is through hypermethylation or hypomethylation on somatic cells, leading to activation or silencing of key genes in critical pathways of cancer. 5,6 From some years, the disruption of DNA methylation status by exposure to genotoxic agents has been an issue in the literature, but the clear demonstration that such epigenetic alterations were caused by one or more specific agents in people has been demanding (for a review see Ref. 7 and references therein).Benzo [a]pyrene (B[a]P), the most well-studied PAH carcinogen (especially of the lung), has a well-established genotoxic mechanism, via metabolic activation to diol epoxide. 8 The stereoselective binding of anti-benzo[a]pyrene di...

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“…Consequently, the two main roles of DNA methylation are thought to be maintenance of genome stability (Eden et al, 2003) and control of gene transcription (Bird, 2002). In higher organisms, which have functionally different cell types, DNA methylation is thought to be important in the control of gene expression, and changes in DNA methylation can dramatically affect chromatin structure and genome stability (Yauk et al, 2008). Franco et al (2008) indicated that reactive oxygen spemultistage process of carcinogenesis by both genetic and epigenetic mechanisms.…”

Section: Introductionmentioning

confidence: 99%

Low dose effects of dichlorodiphenyltrichloroethane (DDT) on gene transcription and DNA methylation in the hypothalamus of young male rats: implication of hormesis-like effects

et al. 2009

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-To verify the relationship between oxidative stress and DNA methylation in the young brain, dichlorodiphenyltrichloroethane (DDT) was administered by gavage to male young rats at doses of 0, 0.006, 0.06, 0.6, 6, and 60 mg/kg/day for a period of 4 weeks. The most conspicuous decrease in the lipid peroxidation level was observed in the 0.06 mg/kg/day group compared with controls. Microarray analysis of brain samples from the control and 0.06 mg/kg/day groups revealed that the expression of 40 genes was changed in the hypothalamus, whereas mRNA expression was unaltered in the hippocampus. This result suggests that the hypothalamus is more susceptible to low-level oxidative stress at the young period. We further examined this possibility by selecting 10 genes from the hypothalamic microarray data. mg/kg/day group, compared with controls. Furthermore, RT-PCR analysis showed that mRNA expressions of Dnmt1, Hsp90 and Hsp70 group than in controls. Methylated DNA-PCR analysis in the hypothalamus revealed that 6 CpG islands machinery malfunctions under low levels of oxidative stress, thereby leading to incomplete methylation -tively with transcriptional down-regulation and hypomethylation, but the precise mechanisms underlying these processes are unclear.

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Germ-line mutations, DNA damage, and global hypermethylation in mice exposed to particulate air pollution in an urban/industrial location

Cited by 277 publications

References 75 publications

DNA adduct kinetics in reproductive tissues of DNA repair proficient and deficient male mice after oral exposure to benzo(a)pyrene

DNA adduct kinetics in reproductive tissues of DNA repair proficient and deficient male mice after oral exposure to benzo(a)pyrene

Global and gene‐specific promoter methylation changes are related to anti‐B[a]PDE‐DNA adduct levels and influence micronuclei levels in polycyclic aromatic hydrocarbon‐exposed individuals

Low dose effects of dichlorodiphenyltrichloroethane (DDT) on gene transcription and DNA methylation in the hypothalamus of young male rats: implication of hormesis-like effects

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