Slug contributes to cadherin switch and malignant progression in muscle-invasive bladder cancer development

Objectives ail family of zinc finger transcription factors (i.e., Snail and Slug) predicts the tumor recurrence in superficial bladder cancers, while their roles in the development of muscle-invasion, metastasis, and chemoresistance in muscle-invasive bladder cancers with poor prognosis have not been investigated. This study evaluates the clinical significance of Slug in aggressive bladder cancer. als and methods of sublines (i.e., T24-P and T24-L) from a unique orthotropic metastatic model of bladder cancer was firstly utilized to identify the potential precursors contributing to those aggressive phenotypes. The coexpression of Slug, E-cadherin, and N-cadherin in bladder cancer cell lines (i.e., 5637, RT4, 253 J, J82, and T24) and tissues was evaluated by reverse transcription-polymerase chain reaction (RT-PCR), Western blotting, and immunohistochemistry staining analysis. The function of Slug expression on E- to N-cadherin switch, cell invasion, and chemoresistance to proapoptotic treatment was validated by gain-in-function and knockdown strategy in vitro. s as identified as one of the novel targets contributed to the aggressive phenotypes of T24-L cells, which showed enhanced cell invasive, metastatic, and chemoresistant potentials in vitro and in vivo as previously described. Up-regulation of Slug was significantly correlated with a higher tumor stage and the E- to N-cadherin switch in bladder cancer cells and tissues, whereas ectopic expression of Slug in bladder cancer 5637 and RT-4 cell lines promoted epithelial-to-mesenchymal transition (EMT), increased cell invasiveness and chemoresistance. By contrast, knocking down Slug using siRNA in T24-L cell lines reversed these changes. sions levates in invasive or metastatic bladder cancer and plays a critical role in EMT via control of cadherin switch. Slug may be a potential marker or target for improving the diagnosis and treatment of muscle-invasive bladder cancers.