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Date publication

novembre 2018

Journal

Nanomedicine : nanotechnology, biology, and medicine

Auteurs

Membres identifiés du Cancéropôle Est :
Pr DEDIEU Stéphane , Dr DEVY Jérôme , Dr BERQUAND Alexandre


Tous les auteurs :
Berquand A, Meunier M, Devy JT, Ivaldi C, Campion O, Dedieu S, Molinari M, Devy J

Résumé

To get more insight into the role of LRP-1 in the mechanism of tumor progression in triple negative breast cancer. Atomic force microscopy, videomicroscopy, confocal microscopy and Rho-GTPAse activity assay were used on MDA-MB-231 and LRP-1-silenced cells. Silencing of LRP-1 in MDA-MB-231 cells was shown to led to a dramatic increase in the Young's modulus in parallel to a spectacular drop in membrane extension dynamics as well as a decrease in the cells migration abilities on both collagen I and fibronectin substrates. These results were perfectly correlated to a corresponding change in cell morphology and spreading capacity as well as in Rho-GTPases activity. By a multi-technique approach, it was demonstrated that LRP-1 played a crucial role in the migration of MDA-MB-231 cells by modulating the membrane extension dynamic. The originality of this AFM investigation lies in the non-invasive aspect of the measurements.

Mots clés

Atomic force microscopy, LRP-1, Triple negative breast cancer

Référence

Nanomedicine. 2018 Nov 9;: