Aberrant Methylation of LINE-1 Transposable Elements: A Search for Cancer Biomarkers.

Cancer remains one of the main causes of human mortality despite significant progress in its diagnostics and therapy achieved in the past decade. Massive hypomethylation of retrotransposons, in particular LINE-1, is considered a hallmark of most malignant transformations as it results in the reactivation of retroelements and subsequent genomic instability. Accumulating data on LINE-1 aberrant methylation in different tumor types indicates its significant role in cancer initiation and progression. However, direct evidence that LINE-1 activation can be used as a cancer biomarker is still limited. The objective of this review was to critically evaluate the published results regarding the diagnostic/prognostic potential of the LINE-1 methylation status in cancer. Our analysis indicates that LINE-1 hypomethylation is a promising candidate biomarker of cancer development, which, however, needs validation in both clinical and laboratory studies to confirm its applicability to different cancer types and/or stages. As LINE-1 is present in multiple cell-free copies in blood, it has advantages over single-copy genes regarding perspectives of using its methylation status as an epigenetic cancer biomarker for cell-free DNA liquid biopsy.

Premalignant lesions of squamous cell carcinoma of the lung: The molecular make-up and factors affecting their progression.

Squamous cell carcinoma (SCC), one of the most common forms of lung cancer, shows accelerated progression and aggressive growth and usually is observed at advanced stages. SCC originates from morphological changes in the bronchial epithelium that occur during chronic inflammation: basal cell hyperplasia, squamous metaplasia, and dysplasia I-III. However, the process is not inevitable; it can be stopped at any stage, remain in the stable state indefinitely and either progress or regress. The reasons and mechanisms of different scenarios of the evolution of premalignant lesions in the respiratory epithelium are not fully understood. In this review, we summarized the literature data (including our own data) regarding genetic, epigenetic, transcriptomic and proteomic profiles of the premalignant lesions and highlighted factors (environmental causes, inflammation, and gene polymorphism) that may govern their progression or regression. In conclusion, we reviewed strategies for lung cancer prevention and proposed new models and research directions for studying premalignant lesions and developing new tools to predict the risk of their malignant transformation.

Distribution of EGFR Mutations in 10,607 Russian Patients with Lung Cancer.

INTRODUCTION: This study was aimed to evaluate distribution of epidermal growth factor receptor (EGFR) mutations in a large series of Russian lung cancer (LC) patients. METHODS: 10,607 LC samples were considered for EGFR analysis; EGFR status was successfully determined in 10,426 cases (98.3 %), indicating relatively low failure rate. RESULTS: EGFR mutations (ex19del and L858R) were detected in 1759/8716 (20.2 %) adenocarcinomas, 28/669 (4.2 %) squamous cell carcinomas (SCC) and 8/119 (6.7 %) large cell carcinomas. The occurrence of EGFR mutations in adenocarcinomas gradually increased with age, being attributed mainly to the increment of the L858R frequency in non-smokers (patients aged 18-30 years: 1/27 (3.7 %); 31-40 years: 5/98 (5.1 %); 41-50 years: 18/276 (6.5 %); 51-60 years: 102/944 (10.8 %); 61-70 years: 138/1011 (13.7 %); 71-80 years: 85/496 (17.1 %); 81-100 years: 5/27 (18.5 %); p < 0.0001). The EGFR mutation was detected in 804/2107 (38.2 %) non-smoking women versus 125/806 (15.5 %) non-smoking men (p < 0.0001), while the corresponding figures for smokers were 60/273 (22.0 %) versus 147/2214 (6.6 %) (p < 0.0001). The obtained gender-related data differ from the estimates obtained in Asian studies; they indicate that increased prevalence of EGFR mutations in white females may not be entirely attributed to the low prevalence of smoking, but is likely to be related to gender factors per se. CONCLUSION: Biological causes of distinct age- and gender-related distribution of EGFR mutations in LC deserve further investigation.

Regulatory single nucleotide polymorphisms at the beginning of intron 2 of the human KRAS gene.

There are two regulatory single nucleotide polymorphisms (rSNPs) at the beginning of the second intron of the mouse K-ras gene that are strongly associated with lung cancer susceptibility. We performed functional analysis of three SNPs (rs12228277: T greater than A, rs12226937: G greater than A, and rs61761074: T greater than G) located in the same region of human KRAS. We found that rs12228277 and rs61761074 result in differential binding patterns of lung nuclear proteins to oligonucleotide probes corresponding two alternative alleles; in both cases, the transcription factor NF-Y is involved. G greater than A substitution (rs12226937) had no effect on the binding of lung nuclear proteins. However, all the nucleotide substitutions under study showed functional effects in a luciferase reporter assay. Among them, rs61761074 demonstrated a significant correlation with allele frequency in non-small-cell lung cancer (NSCLC). Taken together, the results of our study suggest that a T greater than G substitution at nucleotide position 615 in the second intron of the KRAS gene (rs61761074) may represent a promising genetic marker of NSCLC.