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Directional PC12 Cell Migration Along Plastic Nanotracks

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<mark>Journal publication date</mark>2009
<mark>Journal</mark>IEEE Transactions on Biomedical Engineering
Issue number11
Volume56
Number of pages5
Pages (from-to)2692-2696
Publication StatusPublished
<mark>Original language</mark>English

Abstract

The design of materials to promote the development and/or regeneration of neuronal tissue requires the understanding of the mechanisms by which the underlying substrate topography can modulate neuronal cell differentiation and migration. We recently demonstrated that plastic nanogratings (alternating lines of grooves and ridges of submicrometer size) can effectively change the neuronal polarity state, selecting bipolar cells with aligned neu-rites. Here, we address the effect of nanogratings on the migration properties of differentiating PC12 cells and correlate their behavior with the polarity state induced by the substrate. During neuronal differentiation, cell-substrate interaction is sufficient to induce directional migration along the nanogratings. Control cells contacting flat substrates migrated freely in all directions, while cells differentiating on nanogratings showed slower migration characterized by an angular restriction that confined cell movements. Finally, we show that directional migration on nanogratings is linked to a specific organization of the cell cytoskeleton reflecting the nanograting directionality.