Abstract
Background: Two novel assays quantifying Epithelial to Mesenchymal Transition (EMT) were compared to traditional motility and migration assays. TGF-β1 treatment of AY-27 rat bladder cancer cells acted as a model of EMT in tumourigenesis.
Methods: AY-27 rat bladder cancer cells incubated with 3 ng/ml TGF-β1 or control media for 24 or 48 h were assessed using novel and traditional assays. The Spindle Index, a novel measure of spindle phenotype, was derived from the ratio of maximum length to maximum width of cells. The area covered by cells which migrated from a fixed coverslip towards supplemented agarose was measured in a novel chemoattractant assay. Motility, migration and immunoreactivity for E-cadherin, Vimentin and cytokeratin were assessed.
Results: TGF-β1 treated cells had increased “spindle” phenotype together with decreased E-cadherin, decreased Cytokeratin-18 and increased Vimentin immunoreactivity. After 48 h, the mean Spindle Index of TGF-β1 treated cells was significantly higher than Mock (p=0.02, Bonferroni test) and there were significant differences in migration across treatment groups measured using the novel chemoattractant assay (p=0.02, Chi-square). TGF-β1 significantly increased matrigel invasion.
Conclusions: The Spindle Index and the novel chemoattractant assay are valuable adjunctive assays for objective characterization of EMT changes during tumourigenesis.
Keywords: Matrigel, TGF-β_1, chemoattractant, invasion, motility, migration, EMT, bladder cancer, AY-27, spindle phenotype