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Cytocompatibility of Graphene Monolayer and Its Impact on Focal Cell Adhesion, Mitochondrial Morphology and Activity in BALB/3T3 Fibroblasts

Iwona Lasocka, Lidia Szulc‐Dąbrowska, Michał Skibniewski, Ewa Skibniewska, Karolina P. Gregorczyk-Zboroch, Iwona Pasternak, Marie Hubálek Kalbáčová

2021Materials21 citationsDOIOpen Access PDF

Abstract

This study investigates the effect of graphene scaffold on morphology, viability, cytoskeleton, focal contacts, mitochondrial network morphology and activity in BALB/3T3 fibroblasts and provides new data on biocompatibility of the "graphene-family nanomaterials". We used graphene monolayer applied onto glass cover slide by electrochemical delamination method and regular glass cover slide, as a reference. The morphology of fibroblasts growing on graphene was unaltered, and the cell viability was 95% compared to control cells on non-coated glass slide. There was no significant difference in the cell size (spreading) between both groups studied. Graphene platform significantly increased BALB/3T3 cell mitochondrial activity (WST-8 test) compared to glass substrate. To demonstrate the variability in focal contacts pattern, the effect of graphene on vinculin was examined, which revealed a significant increase in focal contact size comparing to control-glass slide. There was no disruption in mitochondrial network morphology, which was branched and well connected in relation to the control group. Evaluation of the JC-1 red/green fluorescence intensity ratio revealed similar levels of mitochondrial membrane potential in cells growing on graphene-coated and uncoated slides. These results indicate that graphene monolayer scaffold is cytocompatible with connective tissue cells examined and could be beneficial for tissue engineering therapy.

Topics & Concepts

Focal adhesionGrapheneBiocompatibilityViability assayMaterials scienceBiophysicsFibroblastCell adhesionVinculinTissue engineeringMorphology (biology)NanotechnologyCellChemistryAdhesionBiomedical engineeringBiologyComposite materialIn vitroBiochemistryMedicineGeneticsMetallurgyGraphene and Nanomaterials ApplicationsNanoparticles: synthesis and applicationsNeuroscience and Neural Engineering
Cytocompatibility of Graphene Monolayer and Its Impact on Focal Cell Adhesion, Mitochondrial Morphology and Activity in BALB/3T3 Fibroblasts | Litcius