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Article Dans Une Revue PLoS ONE Année : 2019

Characterization of sequentially-staged cancer cells using electrorotation

Résumé

The identification and separation of cells from heterogeneous populations is critical to the diagnosis of diseases. Label-free methodologies in particular have been developed to manipulate individual cells using properties such as density and morphology. The electrical properties of malignant cells, including the membrane capacitance and cytoplasmic conductivity, have been demonstrated to be altered compared to non-malignant cells of similar origin. Here, we exploit these changes to characterize individual cells in a sequentially-staged in vitro cancer model using electrorotation (EROT)-the rotation of a cell induced by a rotating electric field. Using a microfabricated device, a dielectrophoretic force to suspend cells while measuring their angular velocity resulting from an EROT force applied at frequencies between 3 kHz to 10 MHz. We experimentally determine the EROT response for cells at three stages of malignancy and analyze the resultant spectra by considering models that include the effect of the cell membrane alone (single-shell model) and the combined effect of the cell membrane and nucleus (double-shell model). We find that the cell membrane is largely responsible for a given cell's EROT response between 3 kHz and 10 MHz. Our results also indicate that membrane capacitance, membrane conductance, and cytoplasmic conductivity increase with an increasingly malignant phenotype. Our results demonstrate the potential of using electrorotation as a means making of non-invasive measurements to characterize the dielectric properties of cancer cells.

Dates et versions

hal-02301212 , version 1 (30-09-2019)

Identifiants

Citer

Claudia Trainito, Daniel Sweeney, Jaka Čemažar, Eva Schmelz, Olivier Français, et al.. Characterization of sequentially-staged cancer cells using electrorotation. PLoS ONE, 2019, 14 (9), pp.e0222289. ⟨10.1371/journal.pone.0222289⟩. ⟨hal-02301212⟩
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