DNA methylation and associated gene expression in blood prior to lung cancer diagnosis in the Norwegian Women and Cancer cohort

Sandanger, Torkjel M.; Nøst, Therese Haugdahl; Guida, Florence; Rylander, Charlotta; Campanella, Gianluca; Muller, David C.; Dongen, Jenny van; Boomsma, Dorret I.; Johansson, Mattias; Víneis, Paolo; Vermeulen, Roel; Lund, Eiliv; Chadeau‐Hyam, Marc

doi:10.1038/s41598-018-34334-6

Cited by 39 publications

(55 citation statements)

References 37 publications

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“…As detailed in the Supporting Information, we ran a series of linear mixed models for each disease‐related adduct and each of the 2,670 smoking‐related CpG, setting the methylation level as the variable of interest. These models also accounted for technical variation in the methylation data using a two‐step strategy first estimating, and second removing technically‐induced shifts in measured methylation levels . Results from these analyses were visualized as a bipartite network where edges were selected based on statistical significance of the pairwise associations, correcting for 2,670 tests.…”

Section: Methodsmentioning

confidence: 99%

Agnostic Cys34‐albumin adductomics and DNA methylation: Implication of N‐acetylcysteine in lung carcinogenesis years before diagnosis

Dagnino

Bodinier

Grigoryan

et al. 2019

Intl Journal of Cancer

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Although smoking and oxidative stress are known contributors to lung carcinogenesis, their mechanisms of action remain poorly understood. To shed light into these mechanisms, we applied a novel approach using Cys34-adductomics in a lung cancer nested case-control study (n = 212). Adductomics profiles were integrated with DNA-methylation data at established smoking-related CpG sites measured in the same individuals. Our analysis identified 42 Cys34-albumin adducts, of which 2 were significantly differentially abundant in cases and controls: adduct of N-acetylcysteine (NAC, p = 4.15 × 10 −3 ) and of cysteinyl-glycine (p = 7.89 × 10 −3 ). Blood levels of the former were found associated to the methylation levels at 11 smokingrelated CpG sites. We detect, for the first time in prospective blood samples, and irrespective of time to diagnosis, decreased levels of NAC adduct in lung cancer cases. Altogether, our results highlight the potential role of these adducts in the oxidative stress response contributing to lung carcinogenesis years before diagnosis. *P.V. and M.C.-H. jointly supervised this work Additional Supporting Information may be found in the online version of this article.

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Section: Methodsmentioning

confidence: 99%

Agnostic Cys34‐albumin adductomics and DNA methylation: Implication of N‐acetylcysteine in lung carcinogenesis years before diagnosis

Dagnino

Bodinier

Grigoryan

et al. 2019

Intl Journal of Cancer

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“…Approximately 50 000 women in the NOWAC cohort donated blood samples and constitute the postgenome cohort 21 . The present paper includes controls from three data sets from the postgenome cohort, all cancer-free women at the time of blood sampling and selected as controls in case-control studies of melanoma (discovery set, n = 183 controls), breast cancer (replication set R 1 , n = 191 controls) 22 , and lung cancer (replication set R 2 , n = 125 controls) 5,23 . Matching factors were time since blood sampling and year of birth (1943-1947, 1948-1952, 1953-1957).…”

Section: Methodsmentioning

confidence: 99%

Lifetime Ultraviolet Radiation Exposure and DNA Methylation in Blood Leukocytes: The Norwegian Women and Cancer Study

Page

Djordjilović

Nøst

et al. 2020

Sci Rep

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Ultraviolet radiation (UVR) exposure is a leading cause of skin cancers and an ubiquitous environmental exposure. However, the molecular mechanisms relating UVR exposure to melanoma is not fully understood. We aimed to investigate if lifetime UVR exposure could be robustly associated to DNA methylation (DNAm). We assessed DNAm in whole blood in three data sets (n = 183, 191, and 125) from the Norwegian Woman and Cancer cohort, using Illumina platforms. We studied genome-wide DNAm, targeted analyses of CpG sites indicated in the literature, global methylation, and accelerated aging. Lifetime history of UVR exposure (residential ambient UVR, sunburns, sunbathing vacations and indoor tanning) was collected by questionnaires. We used one data set for discovery and the other two for replication. One CpG site showed a genome-wide significant association to cumulative UVR exposure (cg01884057) (p nominal = 3.96e-08), but was not replicated in any of the two replication sets (p nominal ≥ 0.42). Two CpG sites (cg05860019, cg00033666) showed suggestive associations with the other UVR exposures. We performed extensive analyses of the association between long-term UVR exposure and DNAm. There was no indication of a robust effect of past UVR exposure on DNAm. Solar radiation is the major source of human exposure to ultraviolet radiation (UVR) 1 , and the major risk factor for cutaneous melanoma and keratinocyte skin cancers 2,3. Exposure to artificial UVR (indoor tanning) also increases skin cancer risk, and is classified as carcinogenic to humans 4. Identification of biomarkers indicating past exposures is important in the study of chronic diseases and their etiology. In epidemiological studies, DNA methylation has been a strong marker of environmental exposure 5,6. Exposure to smoking, air pollution, and heavy metals have consistently been linked to epigenetic changes, mainly to DNA methylation 7,8. UVR exposure has also been linked to DNA methylation, as UVR exposure has been demonstrated to change the epigenetic profile of the epidermis 9. An assessment of ambient UVR exposure and DNA methylation in CD4 + T-cells in European American individuals 10 demonstrated an epigenome-wide significant association for cg26930596 (PRKCZ), but failed to replicate in an independent sample. An Australian study found an association between UVR exposure and total LINE-1 hypomethylation 11. LINE-1 has often been used as a marker of genomic integrity, and a loss of methylation in LINE-1 is associated with global hypomethylation and with structural instability of the genome. Global hypomethylation has been associated with multiple cancers, including bladder, liver, breast, kidney, colon and melanoma 12. With UVR exposure as the main risk factor for melanoma, it is of interest to investigate if UVR exposure can affect epigenetic profiles, and if DNA methylation mediates the association between UVR exposure and the risk of melanoma. Our aim was to assess the former, i.e., whether DNA methylation in blood leucocytes is associated with life histo...

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“…Integrated PCA has been implemented in R and its code is available at [25]. Note that iPCA, unlike aJIVE, does not require the specification of the initial ranks, al- Both methylation and gene expression have been shown to associate with the occurrence and characteristics of lung cancer [26][27][28][29] but it is also known that the different data sources might contribute together and jointly relate to these biological outcomes [30,31]. We apply aJIVE and iPCA to estimate such joint and individual contributions, and use these components in prediction models for the occurrence of lung cancer and classification of tumor types.…”

Section: Integrated Pcamentioning

confidence: 99%

“…Laboratory processing and microarray analyses for mRNA expression and DNA methylation are described in [31]. For miRNA, laboratory processing included miRNA isolation and purification from 100 µl plasma using the Qiagen miRNeasy The filtering of miRNA expressions was based on the counts per million, that is the total read counts of a miRNA divided by the total read counts of the sample and multiplied by 10 6 , and signals having less than one count per million were excluded.…”

Section: Filtering and Preprocessingmentioning

confidence: 99%

Integrative Analysis of Multi-omics Data Improves Model Predictions: An Application to Lung Cancer

Ponzi

Thoresen

Nøst

et al. 2020

Preprint

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Background: Cancer genomic studies often include data collected from several omics platforms. Each omics data source contributes to the understanding of the underlying biological process via source speciﬁc (”individual”) patterns of variability. At the same time, statistical associations and potential interactions among the diﬀerent data sources can reveal signals from common biological processes that might not be identiﬁed by single source analyses. These common patterns of variability are referred to as ”shared” or ”joint”. To capture both contributions of variance, integrative dimension reduction techniques are needed. Integrated PCA is a model based generalization of principal components analysis that separates shared and source speciﬁc variance by iteratively estimating covariance structures from a matrix normal distribution. Angle based JIVE is a matrix factorization method that decomposes joint and individual variation by permutation of row subspaces. We apply these techniques to identify joint and individual contributions of DNA methylation, miRNA and mRNA expression collected from blood samples in a lung cancer case control study nested within the Norwegian Woman and Cancer (NOWAC) cohort study.Results: In this work, we show how an integrative analysis that preserves both components of variation is more appropriate than analyses considering uniquely individual or joint components. Our results show how both joint and individual components contribute to a better quality of model predictions, and facilitate the interpretation of the underlying biological processes.Conclusions: When compared to a non integrative analysis of the three omics sources, integrative models that simultaneously include joint and individual components result in better prediction of cancer status and metastatic cancer at diagnosis.

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DNA methylation and associated gene expression in blood prior to lung cancer diagnosis in the Norwegian Women and Cancer cohort

Cited by 39 publications

References 37 publications

Agnostic Cys34‐albumin adductomics and DNA methylation: Implication of N‐acetylcysteine in lung carcinogenesis years before diagnosis

Agnostic Cys34‐albumin adductomics and DNA methylation: Implication of N‐acetylcysteine in lung carcinogenesis years before diagnosis

Lifetime Ultraviolet Radiation Exposure and DNA Methylation in Blood Leukocytes: The Norwegian Women and Cancer Study

Integrative Analysis of Multi-omics Data Improves Model Predictions: An Application to Lung Cancer

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