Metastasis is a major cause of fatality in Triple-Negative Breast Cancer (TNBC). There is a significant correlation between metastasis and chemoresistance in cancers. Evasion during apoptosis, considered as a hallmark of cancer, is a critical characteristic of metastatic tumor cells and the main cause of chemoresistance. In metastatic tumor cells, elucidating the mechanisms of apoptosis resistance is crucial to developing novel therapeutic strategies. In this study, we studied the expression of death receptors-5 (DR-5) as an execution factor of apoptosis in the metastatic cascade of TNBC.
METHODS
Using a 4T1 cell line, the animal model of metastatic breast cancer was made. Primary and metastatic
tumor cells were extracted from subcutaneous tumor and lung of cancerous mice, respectively. Realtime
PCR was performed to analyze the level of DR-5 gene expression.
RESULTS
Cell culture results demonstrated that metastatic tumor cells had comparatively greater proliferation
potential. Moreover, Real-time analysis indicated that DR-5 expression in metastatic tumor cells was
significantly reduced.
CONCLUSION
These findings provide important insights regarding the molecular mechanism of apoptosis resistance
phenomenon in metastatic tumor cells and can partly explain the reasons for the chemoresistance in
metastatic cells, which will highly likely to provide the basis for designing targeted therapeutic methods
to overcome chemoresistance and combat with metastatic TNBC.