Conclusions
Tiam1 expression correlates with cell motility in human breast cancer cells, and is required to support the motile phenotype. Localization of endogenous Tiam1 to the Golgi, and its demonstrated role in Golgi reorientation, suggest that it may support motility through a mechanism that is discrete from its known function in leading edge dynamics.
Methods
Tiam1 expression and Rac activity were examined in a panel of human breast cancer cell lines which exhibit different degrees of cell motility. The contribution of Tiam1 to cell motility was directly examined using transwell motility, and wound healing assays.
Results
Although we observe a striking, positive correlation between Tiam1 expression and cell motility in the panel of breast cancer cell lines, we do not observe a correlation between Tiam1 expression and overall levels of Rac activity. Consistent with this, small interfering ribonucleic acid (siRNA)-mediated suppression of Tiam1 expression limits the motility of cell lines in which Tiam1 expression is high (MDA-MB-231 and MDA-MB-453), but does not substantially alter the overall levels of activated Rac. Tiam1 overexpression is also not sufficient to increase the motility of more poorly motile cells (T-47D) or increase Rac activity. Immunofluorescence and cellular fractionations indicate that Tiam1 is found predominantly in the Golgi of breast cancer cells, and in the latter case Tiam1 was shown to co-fractionate with a limited pool of Rac1. Consistent with this Golgi localization, Tiam1 supports cell motility and Golgi reorientation in response to serum in a wound healing assay using MDA-MB-231and MDA-MB-435S cells. Conclusions: Tiam1 expression correlates with cell motility in human breast cancer cells, and is required to support the motile phenotype. Localization of endogenous Tiam1 to the Golgi, and its demonstrated role in Golgi reorientation, suggest that it may support motility through a mechanism that is discrete from its known function in leading edge dynamics.