Abstract

BackgroundNewly established blood DNA methylation markers that are strongly associated with smoking might open new avenues for lung cancer (LC) screening. We aimed to assess the performance of the top hits from previous epigenome-wide association studies in prediction of LC incidence.In a prospective nested case-control study, DNA methylation at AHRR (cg05575921), 6p21.33 (cg06126421), and F2RL3 (cg03636183) were measured by pyrosequencing in baseline whole blood samples of 143 incident LC cases identified during 11 years of follow-up and 457 age- and sex-matched controls without diagnosis of LC until the end of follow-up. The individual and joint associations of the 3 markers with LC risk were estimated by logistic regression, adjusted for potential confounders including smoking status and cigarette pack-years. The predictive performance was evaluated for both the individual markers and their combinations derived from multiple algorithms.ResultsPronounced demethylation of all 3 markers was observed at baseline among cases compared to controls. Risk of developing LC increased with decreasing DNA methylation levels, with adjusted ORs (95% CI) of 15.86 (4.18–60.17), 8.12 (2.69–4.48), and 10.55 (3.44–32.31), respectively, for participants in the lowest quartile of AHRR, 6p21.33, and F2RL3 compared to participants in the highest 2 quartiles of each site among controls. The individual 3 markers exhibited similar accuracy in predicting LC incidence, with AUCs ranging from 0.79 to 0.81. Combination of the 3 markers did not improve the predictive performance (AUC = 0.80). The individual markers or their combination outperformed self-reported smoking exposure particularly in light smokers. No variation in risk prediction was identified with respect to age, follow-up time, and histological subtypes.Conclusions AHRR, 6p21.33, and F2RL3 methylation in blood DNA are predictive for LC development, which might be useful for identification of risk groups for further specific screening, such as CT examination.Electronic supplementary materialThe online version of this article (doi:10.1186/s13148-016-0292-4) contains supplementary material, which is available to authorized users.

Highlights

  • Established blood DNA methylation markers that are strongly associated with smoking might open new avenues for lung cancer (LC) screening

  • Epigenome-wide association studies (EWAS) have opened a new avenue for LC screening, in that hundreds of highly reproducible blood DNA methylation markers were linked to smoking [8], the major risk factor of LC

  • Our previous investigations focused on these top-ranked loci have demonstrated that Coagulation factor II receptor-like 3 (F2RL3) methylation is a strong predictor for both LC incidence and mortality [15], and smoking-induced hypomethylation at cg05575921 in aryl-hydrocarbon receptor repressor (AHRR) and cg06126421 in 6p21.33 are strongly associated with increased risk of overall cancer death [16]

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Summary

Introduction

Established blood DNA methylation markers that are strongly associated with smoking might open new avenues for lung cancer (LC) screening. Epigenome-wide association studies (EWAS) have opened a new avenue for LC screening, in that hundreds of highly reproducible blood DNA methylation markers were linked to smoking [8], the major risk factor of LC. Our previous investigations focused on these top-ranked loci have demonstrated that F2RL3 methylation is a strong predictor for both LC incidence and mortality [15], and smoking-induced hypomethylation at cg05575921 in AHRR and cg06126421 in 6p21.33 are strongly associated with increased risk of overall cancer death [16]. To further corroborate and expand evidence of smoking-associated DNA methylation in prediction of LC risk, we assessed the individual and joint associations of blood DNA methylation at AHRR, 6p21.33, and F2RL3 with LC incidence in a case-control study nested in the Epidemiologische Studie zu Chancen der Verhütung, Früherkennung und optimierten Therapie chronischer Erkrankungen in der älteren Bevölkerung (ESTHER) cohort

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