Abstract
Resistance to both chemotherapy and radiation therapy is frequent in triple-negative breast cancer (TNBC) patients. We established treatment-resistant TNBC MDA-MB-231/IR cells by irradiating the parental MDA-MB-231 cells 25 times with 2 Gy irradiation and investigated the molecular mechanisms of acquired resistance. The resistant MDA-MB-231/IR cells were enhanced in migration, invasion, and stem cell-like characteristics. Pathway analysis by the Database for Annotation, Visualization and Integrated Discovery revealed that the NF-κB pathway, TNF signaling pathway, and Toll-like receptor pathway were enriched in MDA-MB-231/IR cells. Among 77 differentially expressed genes revealed by transcriptome analysis, 12 genes involved in drug and radiation resistance, including interferon-induced protein with tetratricopeptide repeats 2 (IFIT2), were identified. We found that baicalein effectively reversed the expression of IFIT2, which is reported to be associated with metastasis, recurrence, and poor prognosis in TNBC patients. Baicalein sensitized radio- and chemoresistant cells and induced apoptosis, while suppressing stem cell-like characteristics, such as mammosphere formation, side population, expression of Oct3/4 and ABCG2, and CD44highCD24low population in MDA-MB-231/IR cells. These findings improve our understanding of the genes implicated in radio- and chemoresistance in breast cancer, and indicate that baicalein can serve as a sensitizer that overcomes treatment resistance.
Highlights
Breast cancer is the most prevalent cancer type worldwide and the second leading cause of cancer death for women, and over 60% of breast cancer patients receive radiation therapy [1]
While only 15–20% of breast cancer patients are classified as triple-negative breast cancer (TNBC), TNBC patients present with factors related to poor prognosis and unfavorable features in histologic grade, tumor size, and metastasis [2,3]
Our analysis revealed that MDA-MB-231/IR cells were enriched in the NF-κB, tumor necrosis factor (DAVID) software to visualize the gene regulatory network and examine how radiation affected (TNF), and Toll-like receptor (TLR)cell signaling pathways to MDA-MB-231 transcription in MDA-MB-231 lines
Summary
Breast cancer is the most prevalent cancer type worldwide and the second leading cause of cancer death for women, and over 60% of breast cancer patients receive radiation therapy [1]. Triple-negative breast cancers (TNBCs) are breast cancers that are negative for estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2). While only 15–20% of breast cancer patients are classified as TNBCs, TNBC patients present with factors related to poor prognosis and unfavorable features in histologic grade, tumor size, and metastasis [2,3]. Despite advances in breast cancer treatment, TNBC patients still rely on chemotherapy and radiotherapy for disease management. Radiation therapy plays an important role in the management of invasive breast cancer and can improve the survival rate by preventing the spread of metastases [4].
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