(416c) Modeling Tubulin Transport in Tumor Cells Under the Influence of AC Electric Fields

Low voltage, 100-300 kHz frequency alternating current (AC) applied electrical fields have been shown to disrupt cellular mitosis, with potentially significant implications for cancer therapy. It has been hypothesized that these fields inhibit tubulin polymerization, preventing the formation of microtubules, thus arresting tumor cell division. Mathematical models based on fundamental principles can be used to gain a mechanistic understanding of tumor cell response to these fields. As a first step in understanding this behavior, we will present a preliminary model that couples tubulin transport to fluid motion within a single, dividing tumor cell when AC electrical fields are applied. This is accomplished through the use of the electrokinetic-hydrodynamics (EKHD) approach to compute effective transport coefficients (effective velocity and diffusivity) of tubulin within tumor cells undergoing cytokinesis.