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New Paper "Transcriptome profiling of cisplatin resistance in triple-negative breast cancer: New insight into the role of PI3k/Akt pathway"

Amir Sabbaghian and colleagues have published a paper related to the resistance to cisplatin in the treatment of triple negative breast cancer. Thanks for using the European Galaxy server and sharing your results with us!

Background: Aggressive nature of triple negative breast cancer (TNBC) is associated with poor prognosis compared with other breast cancer types. Current guidelines recommend the use of Cisplatin for the management of TNBC. However, the development of resistance to cisplatin is the primary cause of chemotherapy failure.

Objective: In the present study, we aimed to develop a stable cisplatin-resistant TNBC cell line to investigate the key pathways and genes involved in cisplatin-resistant TNBC.

Methods: The MDA-MB-231 cell was exposed to different concentrations of cisplatin. After 33 generations, cells showed a resistant phenotype. Then, RNA-sequencing analysis was performed in cisplatin-resistant and parent cell lines. The RNA-sequencing data was verified by quantitative PCR (qPCR).

Results: The IC50 of the resistant cell increased to 10-fold of parental cell (p<0.001). Also, cisplatin-resistant cells show cross-resistance to other drugs, including 5-fluorouracil, paclitaxel, and doxorubicin. Resistant cells demonstrated reduced drug accumulation compared to the parental cells. Results showed there were 116 differentially expression genes (DEGs) (p<0.01). Gene ontology analysis revealed that the DEGs have several molecular functions, including binding and transporter activity. Functional annotation showed that the DEGs were enriched in the drug resistance-related pathways, especially the PI3K-Akt signaling pathway. The most important genes identified in the protein-protein interaction network were heme oxygenase 1 (HMOX1) and TIMP metallopeptidase inhibitor 3 (TIMP3).

Conclusion: We have identified several pathways and DEGs associated with the PI3K-Akt pathway, which provides new insights into the mechanism of cisplatin resistance, and potential drug targets in TNBC.