Randomized controlled trials are needed to assess the clinical ut

Randomized controlled trials are needed to assess the clinical utility of these drugs, as well as their potential to treat patients that have developed resistance to platinum- and taxane-induced cytotoxicity. Lastly, selleck products disrupting DNA repair machinery using Poly(ADP-ribose) polymerase (PARP) inhibitors is a promising strategy for treating OvCa patients harbouring BRCA1 or BRCA2 mutations

[60]. As BRCA1/2 proteins are essential to the homologous recombination repair pathway, preventing single-stranded DNA break repair with PARP inhibitors will lead to an accumulation of double-stranded breaks, which will induce apoptosis in BRCA-deficient tumour cells [65]. Whether these inhibitors will have more effectiveness as a single agent or in combination with therapies still requires further investigation, as this may depend on the histological and molecular tumour

subtype of the patient. Overall, it is evident that the future of OvCa treatment and management will involve a combinatorial approach, as conventional therapies will be used in combination with newly developed agents. Further investigation on the appropriate administration of the above therapies will be a focus of upcoming efforts, as ongoing clinical trials will assess the clinical utility of these drugs as well as determine which patients will benefit the most from each therapeutic agent. Despite the major emphasis Epigenetics inhibitor placed on the search for early detection biomarkers through proteomic profiling and other alternative biomarker discovery efforts, these studies do not allow for the

identification of markers that could guide treatment nor predict its response in patients. As such, attempts have been made towards uncovering proteomic changes that occur as a result of chemoresistance. These include profiling chemosensitive and resistant cancer cell lines and tissues, as a starting Branched chain aminotransferase point in understanding the molecular basis of resistance to chemotherapeutic agents, which will ultimately lead to the identification of markers for treatment response as well as the discovery of novel therapeutic targets. In the following sections, we will describe a few of the emerging cell line-based proteomic strategies, including quantitative proteomics, glycoproteomics, and organellar proteomics to study chemoresistance. In addition, the use of tissue proteomics to complement the above strategies will be discussed. EOC cell lines provide a valuable biological source for conducting high-throughput proteomics because of their easy manipulation and the ability to mine the proteome in depth. Using the human OvCa cell line, A2780, which was derived from an untreated patient, numerous studies have generated its platinum- and taxane-resistant derivatives in order to compare proteomic changes between the two conditions, or to an inherently resistant cancer cell line, OVCAR3 [66], [67], [68], [69] and [70].

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