Metastasis-associated microtentacles are induced in detached and circulating breast tumor cells by expression of the microtubule-binding protein, Tau.

Abstract

Abstract Abstract #55 Detached human breast tumor cell lines produce microtentacles composed of a unique kinesin-dependent coordination of vimentin filaments and detyrosinated microtubules. Compelling in vivo studies show that a mechanism consistent with microtentacles is responsible for the attachment of circulating tumor cells to blood vessel walls. However, the molecular regulators of microtentacle extension have only begun to be defined. Increased expression of the microtubule-binding protein, Tau, is associated with poor patient outcome in breast cancer, but the mechanism by which Tau protein affects prognosis remains unclear. We report here that expression of Tau directly regulates the formation of metastasis-associated microtentacles in detached and circulating breast tumor cells. First, increased expression of Tau correlates with increased microtentacle frequency in a panel of human breast tumor cell lines. Endogenous Tau protein colocalizes with tubulin microtentacles in cells detached from extracellular matrix. Exogenous expression of Tau significantly increases microtentacle frequency in weakly invasive breast tumor cell lines. Tau-induced microtentacles are longer, thicker and more rigid than those in cell lines without Tau expression. Although there is increasing interest in targeting the actin cytoskeleton to reduce tumor cell motility and division, our results indicate that breast tumor cells with high Tau expression have particularly dramatic increases in microtentacles when treated with inhibitors of actin polymerization. Likewise, tubulin-stabilizing compounds, like paclitaxel, increase microtentacles and may be ill-advised in patients with high Tau expression. Indeed, clinical studies show that high Tau expression increases the likelihood of recurrence following paclitaxel treatment. We observed an enrichment of Tau in metastatic tumors compared to matched primary tumors. So while stabilizing microtubules and disrupting actin filaments can each decrease tumor cell growth, it is important to consider the effects of these treatments on Tau-expressing cells to avoid accidentally enhancing the metastatic potential of circulating tumor cells while targeting cell division. Citation Information: Cancer Res 2009;69(2 Suppl):Abstract nr 55.