A new mechanism of drug resistance in breast cancer cells: fatty acid synthase overexpression-mediated palmitate overproduction

Liu, Hailan; Liu, Yang; Zhang, Jian-Ting

doi:10.1158/1535-7163.mct-07-0445

Cited by 175 publications

(165 citation statements)

References 27 publications

(34 reference statements)

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“…Fatty acids were used by proliferating tumor cells for membrane assembly, lipid modifications of proteins, and as an efficient source of energy, all are required to sustain neoplasm growth and survival (47). Furthermore, it is shown that FASN is overexpressed in drug-resistant breast neoplasm cell line (MCF7/AdVp3000), and that reducing the expression of FASN increased the drug sensitivity in MCF7 and MDA-MB-468 (breast cancer cell lines) (48). Analogously, FASN was reported to be associated with acquired trastuzumab/docetaxel/5-fluorouracil resistance in breast cancer or radiation and gemcitabine in pancreatic neoplasm.…”

Section: Discussionmentioning

confidence: 99%

Identification of proteomic and metabolic signatures associated with chemoresistance of human epithelial ovarian cancer

Wang

Yin

et al. 2016

International Journal of Oncology

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Abstract. Emerging drug resistance in epithelial ovarian cancer (EOC) thwarted progress in platinum-based chemotherapy, resulting in increased mortality, morbidity and healthcare costs. The aim of this study was to detect the responses induced by chemotherapy at protein and metabolite levels, and to search for new plasma markers that can predict resistance to platinum-based chemotherapy in EOC patients, leading to improved clinical response rates. Serum samples were collected and subjected to proteomic relative quantitation analysis and metabolomic analysis. Differentially expressed proteins and metabolites were subjected to bioinformatics and statistical analysis. Proteins that played a key role in platinum resistance were validated by western blotting and enzyme-linked immunosorbent assay (ELISA). Metabolites that were the main contributors to the groups and closely with clinical characteristics were identified based on the database using nuclear magnetic resonance (NMR). In total, 248 proteins from two independent experiments were identified using isobaric tags for relative and absolute quantitation (iTRAQ)-based quantitative proteomic approach. Among them, FN1, SERPINA1, GPX3 and ORM1 were chosen for western blotting and ELISA validation. Platinum resistance likely associated with differentially expressed proteins and FN1, SERPINA1 and ORM1 may play a positive role in chemotherapy. HPLC-MS analysis of four groups revealed a total of 25,800 metabolic features, of which six compounds were chosen for candidate biomarkers and identified based on the database using NMR. The metabolic signatures of normal control (NC), platinum-sensitive (PTS) and platinum-resistant (PTR) groups were clearly separated from each other.Those findings may provide theoretical clues for the prediction of chemotherapeutic response and reverse of drug resistance, even lead to novel targets for therapeutic intervention.

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Section: Discussionmentioning

confidence: 99%

Identification of proteomic and metabolic signatures associated with chemoresistance of human epithelial ovarian cancer

Wang

Yin

et al. 2016

International Journal of Oncology

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“…Furthermore, FASN inhibitor cerulenin demonstrated a strong synergism with docetaxel in HER-2 overexpressing and docetaxel-resistant SK-Br3 cells, which indicated the role of FASN in HER-2-induced breast cancer chemotherapy resistance [80] . FASN blockade also could induce a synergistic chemosensitization of breast cancer cells to other chemotherapy agents, such as paclitaxel, adriamycin, 5-FU and vinorelbine [81][82][83][84] .…”

Section: Targeting Fatty Acid Metabolismmentioning

confidence: 99%

Targeting metabolism in breast cancer: How far we can go?

Long

Zhang

2016

WJCO

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receptor-2 targeted therapy, marked a new era of breast cancer treatment. However, except for chemotherapy, an efficient drug treatment to improve the overall survival of breast cancer patients is still lacking for triple negative breast cancer. Furthermore, a certain proportion of breast cancer patients present with resistance to drug therapy, making it much more difficult to control the deterioration of the disease. Recently, altered energy metabolism has become one of the hallmarks of cancer, including breast cancer, and it may be linked to drug resistance. Targeting cellular metabolism is becoming a promising strategy to overcome drug resistance in cancer therapy. This review discusses metabolic reprogramming in breast cancer and the possible complex mechanism of modulation. We also summarize the recent advances in metabolic therapy targeted glycolysis, glutaminolysis and fatty acids synthesis in breast cancer. Core tip: Breast cancer cells display distinct metabolic characteristics according to different molecular phe notypes. There may be crosstalk with the estrogen receptor and human epidermal growth factor receptor2 signal pathways in the metabolic regulation in breast cancer cells that make it more complex to evaluate the efficiency of an antimetabolic drug. On the other hand, the research on target metabolism in breast cancer will also largely help us to understand the complicated mechanism by which an antimetabolic drug impro ves the efficacy of cancer therapy or overcomes drug resistance. AbstractAdjuvant therapies for breast cancer have achieved great success in recent years and early breast cancer is now a curable or chronic disease. Targeted therapies, including endocrine therapy and human epidermal growth factor MINIREVIEWS 122February 10, 2016|Volume 7|Issue 1|

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“…Jun-Qin Li & , Hui Xue & , Lan Zhou, Li-Hua Dong, Da-Peng Wei, Hua Li* expression increases drug sensitivity in breast cancer cell lines MCF7 and MDA-MB-468, but not in normal mammary epithelial cell line MCF10A1 (Liu et al, 2008). The present study showed that the overexpression of MEK-5 and cell apoptosis in breast cancer cell line MCF-7-MEK5 with EMT characteristics and TNF-α tolerance occurred when the cells were treated by FASN inhibitor in the overexpression of FASN.…”

Section: Mechanism Of Fatty Acid Synthase In Drug Tolerance Related Tmentioning

confidence: 99%

Mechanism of Fatty Acid Synthase in Drug Tolerance Related to Epithelial-mesenchymal Transition of Breast Cancer

Li¹,

Xue²,

Zhou³

et al. 2014

Asian Pacific Journal of Cancer Prevention

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A new mechanism of drug resistance in breast cancer cells: fatty acid synthase overexpression-mediated palmitate overproduction

Cited by 175 publications

References 27 publications

Identification of proteomic and metabolic signatures associated with chemoresistance of human epithelial ovarian cancer

Identification of proteomic and metabolic signatures associated with chemoresistance of human epithelial ovarian cancer

Targeting metabolism in breast cancer: How far we can go?

Mechanism of Fatty Acid Synthase in Drug Tolerance Related to Epithelial-mesenchymal Transition of Breast Cancer

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