The detrimental invasiveness of glioma cells controlled by gadolinium chelate-coated gold nanoparticles
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Titre | The detrimental invasiveness of glioma cells controlled by gadolinium chelate-coated gold nanoparticles |
Type de publication | Journal Article |
Year of Publication | 2021 |
Auteurs | Durand M, Lelievre E, Chateau A, Berquand A, Laurent G, Carl P, Roux S, Chazee L, Bazzi R, Eghiaian F, Jubreaux J, Ronde P, Barberi-Heyob M, Chastagner P, Devy J, Pinel S |
Journal | NANOSCALE |
Volume | 13 |
Pagination | 9236-9251 |
Date Published | MAY 28 |
Type of Article | Article |
ISSN | 2040-3364 |
Résumé | Glioblastoma are characterized by an invasive phenotype, which is thought to be responsible for recurrences and the short overall survival of patients. In the last decade, the promising potential of ultrasmall gadolinium chelate-coated gold nanoparticles (namely Au@DTDTPA(Gd)) was evidenced for image-guided radiotherapy in brain tumors. Considering the threat posed by invasiveness properties of glioma cells, we were interested in further investigating the biological effects of Au@DTDTPA(Gd) by examining their impact on GBM cell migration and invasion. In our work, exposure of U251 glioma cells to Au@DTDTPA(Gd) led to high accumulation of gold nanoparticles, that were mainly diffusely distributed in the cytoplasm of the tumor cells. Experiments pointed out a significant decrease in glioma cell invasiveness when exposed to nanoparticles. As the proteolysis activities were not directly affected by the intracytoplasmic accumulation of Au@DTDTPA(Gd), the anti-invasive effect cannot be attributed to matrix remodeling impairment. Rather, Au@DTDTPA(Gd) nanoparticles affected the intrinsic biomechanical properties of U251 glioma cells, such as cell stiffness, adhesion and generated traction forces, and significantly reduced the formation of protrusions, thus exerting an inhibitory effect on their migration capacities. Consistently, analysis of talin-1 expression and membrane expression of beta 1 integrin evoke the stabilization of focal adhesion plaques in the presence of nanoparticles. Taken together, our results highlight the interest in Au@DTDTPA(Gd) nanoparticles for the therapeutic management of astrocytic tumors, not only as a radio-enhancing agent but also by reducing the invasive potential of glioma cells. |
DOI | 10.1039/d0nr08936b |