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A Unique Morphological Phenotype in Chemoresistant Triple-Negative Breast Cancer Reveals Metabolic Reprogramming and PLIN4 Expression as a Molecular Vulnerability.

Isabelle SiroisAdriana Aguilar-MahechaJosiane LafleurEmma FowlerViet VuMichelle ScriverMarguerite BuchananCatherine ChabotAparna RamanathanBanujan BalachandranStéphanie LégaréEwa PrzybytkowskiCathy LanUrszula KrzemienLuca CavalloneOlga AleynikovaCristiano FerrarioMarie-Christine GuilbertNaciba BenlimameAmine SaadMoulay A Alaoui-JamaliHorace Uri SaragoviSylvia JosephyCiara O'FlanaganStephen D HurstingVincent R RichardRené Peiman ZahediChristoph H BorchersEric BarekeSheida NabaviPeter TonellatoJosée-Anne RoyAndré RobidouxElizabeth A MarcusCatalin MihalcioiuJacek MajewskiMark Basik
Published in: Molecular cancer research : MCR (2019)
The major obstacle in successfully treating triple-negative breast cancer (TNBC) is resistance to cytotoxic chemotherapy, the mainstay of treatment in this disease. Previous preclinical models of chemoresistance in TNBC have suffered from a lack of clinical relevance. Using a single high dose chemotherapy treatment, we developed a novel MDA-MB-436 cell-based model of chemoresistance characterized by a unique and complex morphologic phenotype, which consists of polyploid giant cancer cells giving rise to neuron-like mononuclear daughter cells filled with smaller but functional mitochondria and numerous lipid droplets. This resistant phenotype is associated with metabolic reprogramming with a shift to a greater dependence on fatty acids and oxidative phosphorylation. We validated both the molecular and histologic features of this model in a clinical cohort of primary chemoresistant TNBCs and identified several metabolic vulnerabilities including a dependence on PLIN4, a perilipin coating the observed lipid droplets, expressed both in the TNBC-resistant cells and clinical chemoresistant tumors treated with neoadjuvant doxorubicin-based chemotherapy. These findings thus reveal a novel mechanism of chemotherapy resistance that has therapeutic implications in the treatment of drug-resistant cancer. IMPLICATIONS: These findings underlie the importance of a novel morphologic-metabolic phenotype associated with chemotherapy resistance in TNBC, and bring to light novel therapeutic targets resulting from vulnerabilities in this phenotype, including the expression of PLIN4 essential for stabilizing lipid droplets in resistant cells.
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