Transcriptional silencing by CpG island hypermethylation plays a critical role in endometrial carcinogenesis. In a collection of benign, premalignant and malignant endometrial lesions, a methylation profile of a complete gene panel, such steroid receptors (ERα, PR), DNA mismatch repair (hMLH1), tumor-suppressor genes (CDKN2A/P16 and CDH1/E-CADHERIN) and WNT pathway inhibitors (SFRP1, SFRP2, SFRP4, SFRP5) was investigated in order to demonstrate their pathogenetic role in endometrial lesions. Our results indicate that gene hypermethylation may be an early event in endometrial endometrioid tumorigenesis. Particularly, ERα, PR, hMLH1, CDKN2A/P16, SFRP1, SFRP2 and SFRP5 revealed a promoter methylation status in endometrioid carcinoma, whereas SFRP4 showed demethylation in cancer. P53 immunostaining showed weak-focal protein expression level both in hyperplasic lesions and in endometrioid cancer. Non-endometrioid cancers showed very low levels of epigenetic methylations, but strong P53 protein positivity. Fisher exact test revealed a statistically significant association between hMLH1, CDKN2A/P16 and SFRP1 genes methylation and endometrioid carcinomas and between hMLH1 gene methylation and peritumoral endometrium (p < 0.05). Our data confirm that the methylation profile of the peritumoral endometrium is different from the altered molecular background of benign endometrial polyps and hyperplasias. Therefore, our findings suggest that the methylation of hMLH1, CDKN2A/P16 and SFRP1 may clearly distinguish between benign and malignant lesions. Finally, this study assessed that the use of an epigenetic fingerprint may improve the current diagnostic tools for a better clinical management of endometrial lesions.
Steroid hormones are expressed at low levels in mesenchymal cells and are highly expressed in soft tissue sarcoma. In human soft tissue fibrosarcoma cell line (HT-1080), the epidermal growth factor (EGF) stimulates the express of matrix metal (MMPs) expression through a Src-dependent mechanism. In human fibrosarcomas, increased expression of MMPs correlates with the metastatic progression. Our recent data in human breast cancer cell line MCF-7, demonstrates that EGF stimulates estradiol receptor (ER) phosphorylation on tyrosine at position 537 thereby promoting the association of a complex among EGF receptor (EGFR), androgen receptor (AR), ER, and Src that activates EGF-dependent signaling pathway. In the present study, we demonstrate that, in HT-1080 cells, the Src kinase activity is involved in EGFR phosphorylation and this activity is regulated by an interplay between Src, steroid receptors, and EGFR. In these cells, estradiol (E(2) )/ER and synthetic androgen (R1881)/AR trans-activate EGFR leading to the downstream signaling and to ERK activation. Indeed, the association between ER/AR and EGFR enhances metastatic progression of fibrosarcoma tumors. A population pilot study performed on 16 patients with soft tissue neoplasias highlights that MMPs expression correlates with progression of anaplastic sarcoma as well as overexpression of EGFR. These findings suggest that there is a crosstalk among AR, ER, and EGFR that lead to src activation also in fibrosarcoma cells.
Cancer is the second leading cause of death in the world after cardiovascular diseases. Some types of cancer cells often travel to other parts of the body through blood circulation or lymph vessels, where they begin to grow. This process is recognized as metastasis. Angiogenesis is the formation of new blood vessels from existing vessel. Normally angiogenesis is a healthy process, that helps the body to heal wounds and repair damaged body tissues, whereas in cancerous condition this process supports new blood vessels formation that provide a tumor with its own blood supply, nutrients and allow it to grow. The most important proximal factor for angiogenesis is the vascular endothelial growth factor VEGF. Angioinhibition is a form of targeted therapy that uses drugs to stop tumors from making new blood vessels. Therefore, in this paper we analyse the importance of VEGF as target of cancer therapy, analysing murine models.
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