Evaluation of protein expression and DNA methylation profiles detected by pyrosequencing in invasive breast cancer.

Breast carcinoma is the most common cancer with high mortality caused by metastatic disease. New molecular biomarkers predicting the tumour's metastatic potential would therefore improve metastasis prevention and personalised care. The aim of the study was to investigate the relationship between DNA methylation levels in invasivity and metastasising associated genes with aberrant protein expression and also to evaluate whether a similar DNA methylation level is present in the tumour and circulating cell-free DNA for utilising plasma DNA methylation as prognostic biomarker. By using pyrosequencing, we analysed DNA methylation levels of 11 genes, namely APC, ADAM23, CXCL12, ESR1, PGR B, CDH1, RASSF1A, SYK, TIMP3, BRMS1 and SOCS1 in tumour, plasma and peripheral blood cells from 34 patients with primary breast cancer, as well as plasma and peripheral blood cells from 50 healthy controls. Simultaneously, the expression of related proteins in paraffin-embedded tumour samples was evaluated by immunohistochemistry. Statistical analysis was performed by SPSS statistics 15.0 software. Tumour DNA hypermethylation was found in most commonly methylated RASSF1A (71.9%), APC (55.9%), ADAM23 (38%) and CXCL12 (34.4%) genes with methylation levels up to 86, 86, 53 and 64 %, respectively. In tumours, significantly higher methylation levels were found in nine genes, compared with the patients´ peripheral blood cell DNA. Furthermore, in patients methylation levels in peripheral blood cell DNA were significantly higher than in controls in CXCL12, ESR1 and TIMP3 genes, but the values did not exceed 15%. On the other hand, no correlations were observed in patients between DNA methylation in tumours and cell-free plasma DNA. Moreover, in patients and controls nearly identical values of cumulative DNA methylation (43.6 % ± 20.1 vs. 43.7 % ± 15.0) were observed in plasma samples. A variable spectrum from high to none expressions presented in tumour tissues in all of the proteins evaluated, however in APC and CXCL12 genes a visible decreasing trend of mean DNA methylation level with increasing expression of the corresponding protein was observed. The DNA methylation profiles manifested in our group of breast carcinomas are cancer specific, but they are not the only cause that affects the silencing of evaluated genes and the decrease of relevant protein products. The clinical utility of DNA methylation testing in peripheral blood cell DNA for cancer diagnosis and therapy need to be further investigated.

The role of tissue factor in thrombosis and hemostasis.

The tissue factor (TF) is one of the most important regulators of arterial thrombosis. Because arterial thrombosis is the pathophysiologic background of acute coronary syndrome, the possible impact of blocking the arterial thrombosis on its onset is a challenging problem. The investigations of TF brought a new concept of "cell-based coagulation model" which highlighted the question of blood-borne TF as a source of TF in circulating blood. In this review we summarize essential information on the pathophysiology, molecular structure, expression and distribution of TF and we propose a novel concept of blood-borne TF, suggesting the possibilities of inhibition of the coagulation cascade with newly synthetized drugs.