They are thus exported from the cell via the transporter-mediated

They are thus exported from the cell via the transporter-mediated system [140]. Basing on these data we can affirm

that GST can lead to a loss of response to chemotherapeutic agents, including those that are usually employed in the treatment of ovarian cancer. Some authors let us think that this is particularly significant in cancer cells with stem-cell like properties. In a recent study, it has been shown that platinum-resistant human cancer cells with stem-cell like EMT properties, had high cellular GSH and accumulated significantly less cellular platinum compared to their parental cells, and failed to undergo apoptosis when exposed to platinum at the drug concentrations toxic to the parental cells [140]. Apoptosis Apoptosis can condition response to antitumor drugs and it’s regulated by several molecular phenomena, such as the expression of Bm-1 and the loss of p53. Bmi-1, selleck a member of the polycomb group (PcG) family, participates in the self-renewal and maintenance of CSCs [141]. As an oncogene, Bmi-1 could enable cancer cells to escape apoptosis by modulating multiple growth signaling pathways [142]. Thus, its overexpression in cancer cells could be used as a survival marker. The

role of Bmi-1 in chemoresistance has been addressed recently [143, 144]. For ovarian cancer cells, silencing of Bmi- 1 gene could promote sensitivity to cisplatin and induction of apoptosis [145]. The tumor suppressor see more gene p53 plays a critical role in cell learn more proliferation and apoptosis by controlling several signaling pathways. In addition, the control of intracellular localization of p53 is also associated with the regulation of apoptosis and chemosensitivity in human ovarian Quisqualic acid cancer cells

[146–148]. Loss of p53 function correlates with multidrug resistance in several tumor types, including EOC [149]. Enrichment of CSCs during disease progression Enrichment of CSCs in tumor tissues is reported in patients with response to therapy through mechanisms such as enhanced DNA damage repair and changes in the cellular phenotype between epithelial and mesenchymal states of cell [150]. EMT is a physiological transcriptional reprogramming event and is characterized by the combined loss of epithelial cell junctions and cell polarity and the gain of a mesenchymal phenotype. EMT and mesenchymal to epithelial transition (MET) processes are now recognized in cancer progression [151]. A link between CSC and EMT has been suggested, whereby transformed human mammary epithelial cells, that have undergone EMT, show a gain of the CSC phenotype [152–155]. Recently, Kurrey et al. have reported a detailed study of genome-wide identification of SNAI1 and SNAI2 targets that resolves the specific mechanism underlying enrichment of stem-like cells post radiation treatment or chemotherapy through EMT [156].

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