Anoikis (detachment-induced apoptosis) prevents the survival of cells at inappropriate sites of the body and can therefore act as a barrier to metastasis. In a function-based genome-wide screen, we have previously identified the neurotrophic tyrosine kinase receptor TrkB as a potent suppressor of anoikis. Consistently, activated TrkB oncogenically transforms non-malignant epithelial cells and causes them to invade and produce metastatic tumors in vivo. Overexpression of activated TrkB also results in morphological transformation, resembling epithelial-mesenchymal transition (EMT). E-cadherin, an important EMT regulator, and two E-cadherin repressors, Twist and Snail, are critical for these TrkB functions. As Snail has been shown to induce Zeb1, another E-cadherin repressor, we hypothesized that Zeb1 could be a TrkB target, too. We show here that Zeb1 is required for TrkB-induced EMT in epithelial cells, as RNAi-mediated knockdown of Zeb1 reverted the morphological changes induced by TrkB. Furthermore, Zeb1 is involved in TrkB-induced anoikis resistance, migration and invasion. In vivo, knockdown of Zeb1 strongly reduced TrkB-induced metastasis. Finally, epistasis experiments showed that Zeb1 acts downstream of Twist and Snail. We conclude that Zeb1 is required for several TrkB-induced effects in vitro and in vivo, including metastasis.
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