The level of active DNA demethylation compounds in leukocytes and urine samples as potential epigenetic biomarkers in breast cancer patients.

The active DNA demethylation process, which involves TET proteins, can affect DNA methylation pattern. TET dependent demethylation results in DNA hypomethylation by oxidation 5-methylcytosine (5-mC) to 5-hydroxymethylcytosine (5-hmC) and its derivatives. Moreover, TETs' activity may be upregulated by ascorbate. Given that aberrant DNA methylation of genes implicated in breast carcinogenesis may be involved in tumor progression, we wanted to determine whether breast cancer patients exert changes in the active DNA demethylation process. The study included blood samples from breast cancer patients (n = 74) and healthy subjects (n = 71). We analyzed the expression of genes involved in the active demethylation process (qRT-PCR), and 5-mC and its derivatives level (2D-UPLC MS/MS). The ascorbate level was determined using UPLC-MS. Breast cancer patients had significantly higher TET3 expression level, lower 5-mC and 5-hmC DNA levels. TET3 was significantly increased in luminal B breast cancer patients with expression of hormone receptors. Moreover, the ascorbate level in the plasma of breast cancer patients was decreased with the accompanying increase of sodium-dependent vitamin C transporters (SLC23A1 and SLC23A2). The presented study indicates the role of TET3 in DNA demethylation in breast carcinogenesis.

Intracellular ascorbate is a safe-guard and/or reservoir for plasma vitamin C in prostate cancer patients undergoing radiotherapy.

Prostate cancer (PC) represents one of the most common cancer types worldwide and many patients suffering from this kind of cancer are treated with radiotherapy (RTH). Ionizing irradiation is closely associated with reactive oxygen species (ROS) production and oxidative stress. Over the years the role of vitamin C (VC) in cancer prevention has been highlighted as it may be mediated by its ability to neutralize pro-carcinogenic ROS. However, the debate concerning the presence of VC in blood and its beneficial effect on the survival of cancer patients is inconsistent and controversial. To our best knowledge until recently there have been no studies concerning such a role of intracellular VC (iVC). In the present study, blood and intracellular concentrations of vitamin C were analyzed along with the level of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG), as an established marker of the stress condition, in leukocytes of PC patients during the course of radiotherapy. The level of intracellular vitamin C significantly decreased in PC patients in comparison with the healthy group, while there were no differences in blood VC. It was observed that a sub-group of the PC patients reacted to RTH decreasing VC in leukocytes (group A), while the other sub-group acted the other way round, significantly increasing its level (group B). Under stressful conditions (RTH) leukocytes react in two different ways. Both ways are in good agreement with two well recognized functions, proposed for iVC; it may serve as a save factor, to protect the cellular DNA, increasing its concentration inside the cell (group B), and as a reservoir decreasing the VC level inside leukocytes and releasing VC into the plasma to rescue its physiological level (group A). It was also demonstrated that there was a relationship between the level of 8-oxodG in leukocytes' DNA and the markers of RTH toxicity.

Unprecedentedly High Level of Intracellular Vitamin C and DNA Epigenetic Marks in Prostate: Relevant for Male Fertility?

BACKGROUND/AIMS: Seminal plasma composition is affected by the physiological state of the prostate, the major male reproductive gland. Semen components, like vitamin C, can modulate sperm function. Vitamin C is an effective scavenger of free radicals and is an essential component of enzymes such as TET proteins involved in the DNA demethylation process. In the present study, a broad range of parameters which may influence the metabolic state of the prostate gland were analysed including blood and prostate tissue vitamin C, epigenetic DNA modifications and 8-oxo-7,8-dihydro-2'-deoxyguanosine in DNA of leukocytes and prostate tissues. METHODS: The experimental material were tissue samples from patients with benign prostatic hyperplasia (BPH), normal/marginal prostate tissues from prostate cancer patients, leukocytes from healthy donors, and blood plasma from BPH patients and healthy donors. We applied ultra-performance liquid chromatography methods with mass spectrometry and/or UV detection. RESULTS: We found an unprecedentedly high level of intracellular vitamin C in all analysed prostatic tissues (benign prostatic hyperplasia and normal, marginal ones), a value much higher than in leukocytes and most human tissues. DNA epigenetic patterns in prostate cells are similar to other soft tissues like the colon, however, its uniqueness is the unprecedentedly high level of 5-(hydroxymethyl)-2'-deoxyuridine and a significant increase in 5-formyl-2'-deoxycytidine value compared to aforementioned tissues. Moreover, the level of 8-oxo-7,8-dihydro-2'-deoxyguanosine, an established marker of oxidative stress, is significantly higher in prostate tissues than in leukocytes and many previously studied soft tissues. CONCLUSION: Our results pointed out that prostatic vitamin C (regarded as the main supplier of the vitamin C to seminal plasma) and the DNA modifications (which may be linked to the regeneration of prostate epithelium) may play important role to maintain the prostate health.

Dynamic changes in genomic 5-hydroxymethyluracil and N6-methyladenine levels in the Drosophila melanogaster life cycle and in response to different temperature conditions.

In this study, the level of DNA modifications was investigated in three developmental stages of Drosophila melanogaster (larvae, pupae, imago) and in an in vitro model (Schneider 2 cells). Analysis was carried out using two-dimensional ultra-performance liquid chromatography with tandem mass spectrometry. Our method made it possible, for the first time, to analyze a broad spectrum of DNA modifications in the three stages of Drosophila. Each stage was characterized by a specific modification pattern, and the levels of these compounds fluctuated throughout the D. melanogaster life cycle. The level of DNA modification was also compared between insects bred at 25 °C (optimal temperature) and at 18 °C, and the groups differed significantly. The profound changes in N6-methyladenine and 5-hydroxymethyluracil levels during the Drosophila life cycle and as a result of breeding temperature changes indicate that these DNA modifications can play important regulatory roles in response to environmental changes and/or biological conditions. Moreover, the supplementation of Schneider 2 cells with 1 mM L-ascorbic acid caused a time-dependent increase in the level of 5-(hydroxymethyl)-2'-deoxyuridine. These data suggest that a certain pool of this compound may arise from the enzymatic activity of the dTET protein.