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Article Abstract
Cancer cells reprogram their energy metabolism pathways, but the mechanisms that enable them to meet their energy demands remain poorly understood. This study investigates the anticancer effects of ethyl p-methoxycinnamate (EMC) in Ehrlich ascites tumor cells (EATCs) and reveals that de novo fatty acid synthesis, rather than glycolysis, plays a pivotal role in sustaining energy homeostasis in cancer cells. EMC significantly reduced ATP levels despite enhancing glycolytic activity. It suppressed the expression of key enzymes involved in de novo fatty acid synthesis, including Acly, Acc1, and Fasn, resulting in decreased intracellular triglyceride (TG) levels. The addition of exogenous palmitic acid reversed EMC-induced ATP depletion and mitigated its anti-proliferative effects. Mechanistically, the ATP reduction caused by EMC was associated with inhibition of the c-Myc/SREBP1 pathway and arrest of the G1/S cell cycle transition. These findings demonstrate that EMC inhibits EATC proliferation by reducing ATP levels via suppression of de novo fatty acid synthesis. This study highlights the critical role of de novo fatty acid synthesis, rather than glycolysis, in maintaining energy homeostasis in cancer cells and provides novel insights into targeting cancer metabolism.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12046015 | PMC |
| http://dx.doi.org/10.1038/s41598-025-00131-1 | DOI Listing |
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