Metabolic reprogramming in cancer occurs due to interaction of cells with the surrounding tumor microenvironment. In the microenvironment of solid tumors, nutrient deprivation is induced by high consumption of nutrients and insufficient vasculature. Tumor cells alter their metabolic strategies to adapt to the microenvironment. To understand the role of these metabolic changes, in the current study, we have mimicked nutrient deprivation condition in vitro to evaluate the associated signaling pathways in breast cancer cells. In our study, we have shown that nutritional deprivation activated p38 MAPK and activating transcription factor-2 (ATF-2) by increased phosphorylation of Thr180/Tyr182 and Thr71, respectively, in breast cancer cells. Pharmacological inhibition of p38 MAPK showed increased cell viability and reduced expression of ATF-2 and RAD23B under nutrient starvation conditions. Further, silencing of ATF-2 showed increased cell viability and decreased expression of RAD23B under nutrient starvation conditions. This suggests the involvement of p38 MAPK/ATF-2/RAD23B axis as a signaling pathway under nutrition starvation in breast cancer cells. The RAD23B mediated proteasome activity was shown to be much higher under stress conditions indicating a crucial role of RAD23B as a target for breast cancer.
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