Enterolactone alters FAK-Src signaling and suppresses migration and invasion of lung cancer cell lines
S Chikara, K Lindsey, P Borowicz… - … and alternative medicine, 2017 - Springer
BMC complementary and alternative medicine, 2017•Springer
Background Systemic toxicity of chemotherapeutic agents and the challenges associated
with targeting metastatic tumors are limiting factors for current lung cancer therapeutic
approaches. To address these issues, plant-derived bioactive components have been
investigated for their anti-cancer properties because many of these agents are non-toxic to
healthy tissues. Enterolactone (EL) is a flaxseed-derived mammalian lignan that has
demonstrated anti-migratory properties for various cancers, but EL has not been …
with targeting metastatic tumors are limiting factors for current lung cancer therapeutic
approaches. To address these issues, plant-derived bioactive components have been
investigated for their anti-cancer properties because many of these agents are non-toxic to
healthy tissues. Enterolactone (EL) is a flaxseed-derived mammalian lignan that has
demonstrated anti-migratory properties for various cancers, but EL has not been …
Background
Systemic toxicity of chemotherapeutic agents and the challenges associated with targeting metastatic tumors are limiting factors for current lung cancer therapeutic approaches. To address these issues, plant-derived bioactive components have been investigated for their anti-cancer properties because many of these agents are non-toxic to healthy tissues. Enterolactone (EL) is a flaxseed-derived mammalian lignan that has demonstrated anti-migratory properties for various cancers, but EL has not been investigated in the context of lung cancer, and its anticancer mechanisms are ill-defined. We hypothesized that EL could inhibit lung cancer cell motility by affecting the FAK-Src signaling pathway.
Methods
Non-toxic concentrations of EL were identified for A549 and H460 human lung cancer cells by conducting 3-(4, 5-Dimethylthiazol-2-yl)-2, 5-Dephenyltetrazolium Bromide (MTT) assays. The anti-migratory and anti-invasive potential of EL for lung cancer cell lines was determined by scratch wound healing and Matrigel® invasion assays. Changes in filamentous actin (F-actin) fiber density and length in EL-treated cells were determined using phalloidin-conjugated rhodamine dye and fluorescent microscopy. Vinculin expression in focal adhesions upon EL treatment was determined by immunocytochemistry. Gene and protein expression levels of FAK-Src signaling molecules in EL-treated lung cancer cells were determined using PCR arrays, qRT-PCR, and western blotting.
Results
Non-toxic concentrations of EL inhibited lung cancer cell migration and invasion in a concentration- and time-dependent manner. EL treatment reduced the density and number of F-actin fibers in lung cancer cell lines, and reduced the number and size of focal adhesions. EL decreased phosphorylation of FAK and its downstream targets, Src, paxillin, and decreased mRNA expression of cell motility-related genes, RhoA, Rac1, and Cdc42 in lung cancer cells.
Conclusions
Our data suggest that EL suppresses lung cancer cell motility and invasion by altering FAK activity and subsequent activation of downstream proteins needed for focal adhesion formation and cytoskeletal rearrangement. Therefore, administration of EL may serve as a safe and complementary approach for inhibiting lung tumor cell motility, invasion, and metastasis.
Springer
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