Dynamic interactions and intracellular fate of label-free, thin graphene oxide sheets within mammalian cells: role of lateral sheet size

Chen, Yingxian; Crică, Livia Elena; Rosano, Vinicio; Esteban-Arranz, Adrián; Spiller, David G.; Kostarelos, Kostas; Vranic, Sandra

doi:10.1101/805200

Cited by 3 publications

(8 citation statements)

References 88 publications

(161 reference statements)

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“…S11 and Table S3 †). Although DLS characterisation is valid only for spherical nanoparticles, it can be used to detect changes in size and polydispersibility of graphene dispersions, 53,66,67 in combination with other characterisation techniques. Table S3 † shows that all graphene dispersions have monodisperse size distribution upon incubation in complete cell culture medium for 24 h. This is confirmed by the lack of sedimentation/precipitation of material upon incu-bation in the cell culture medium (Fig.…”

Section: Stability Of Graphene In Cell Culture Mediummentioning

confidence: 99%

Stable, concentrated, biocompatible, and defect-free graphene dispersions with positive charge

et al. 2020

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Section: Stability Of Graphene In Cell Culture Mediummentioning

confidence: 99%

Stable, concentrated, biocompatible, and defect-free graphene dispersions with positive charge

et al. 2020

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“…The four types of GBMs that we investigated showed excellent biocompatibility in HPF, MPS VI and Pompe cells in concentrations of up to 100 g/mL (see Figures 2 and S1 -4). In fact, the GBMs employed in our study repeatedly show exceptional biocompatibility in many cell types [12][13][14] . In contrast, many studies reported concentration-dependent cytotoxicity of GBM in primary fibroblast, with the material being toxic at concentrations up to 50 g/mL [34][35][36][37] .…”

Section: Cytotoxicity Profile Of Gr and Gomentioning

confidence: 74%

“…Gr materials (Gr-TMA 3 and Gr-PS1) were synthesized using liquid phase exfoliation in water, as already reported 13,25 . GO materials (s-GO and us-GO) were synthesized using the modified Hummer's method, as already reported 12,27 .…”

Section: Methodsmentioning

confidence: 99%

“…In our case, two stabilisers were used: pyrene bearing a linked trimethylammonium functionality (TMA 3 ) and 1-pyrenesulfonic acid sodium salt (PS1), giving rise to cationic and anionic graphene dispersions (Gr-TMA 3 and Gr-PS1) 8 13,25,26 , respectively. Defective graphene, in the form of GO, was produced by utilising the modified Hummer's method 12,27 . The size distribution of the flakes was selected by changing the sonication conditions, as reported in previous work 12,27 , giving rise to two samples: small GO (s-GO) and ultrasmall GO (us-GO).…”

Section: Synthesis and Characterisation Of Gr And Gomentioning

confidence: 99%

“…Defective graphene, in the form of GO, was produced by utilising the modified Hummer's method 12,27 . The size distribution of the flakes was selected by changing the sonication conditions, as reported in previous work 12,27 , giving rise to two samples: small GO (s-GO) and ultrasmall GO (us-GO).…”

Section: Synthesis and Characterisation Of Gr And Gomentioning

confidence: 99%

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Defect-free graphene enhances enzyme delivery to fibroblasts derived from patients with lysosomal storage disorders

et al. 2023

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Antimicrobial activities of graphene oxide against biofilm and intracellular Staphylococcus aureus isolated from bovine mastitis

et al. 2023

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Background S. aureus is one of the causative agents of bovine mastitis. The treatment using conventional antimicrobials has been hampered due to the development of antimicrobial resistance and the ability of the bacteria to form biofilms and localize inside the host cells. Objectives Here, the efficacy of graphene oxide (GO), a carbon-based nanomaterial, was tested against the biofilms and intracellular S. aureus invitro. Following that, the mechanism for the intracellular antimicrobial activities and GO toxicities was elucidated. Methods GO antibiofilm properties were evaluated based on the disruption of biofilm structure, and the intracellular antimicrobial activities were determined by the survival of S. aureus in infected bovine mammary cells following GO exposure. The mechanism for GO intracellular antimicrobial activities was investigated using endocytosis inhibitors. GO toxicity towards the host cells was assessed using a resazurin assay. Results At 100 ug/mL, GO reduced between 30 and 70% of S. aureus biofilm mass, suggesting GO’s ability to disrupt the biofilm structure. At 200 ug/mL, GO killed almost 80% of intracellular S. aureus, and the antimicrobial activities were inhibited when cells were pre-treated with cytochalasin D, suggesting GO intracellular antimicrobial activities were dependent on the actin-polymerization of the cell membrane. At < 250 ug/mL, GO enhanced the viability of the Mac-T cell, and cells were only affected at higher dosages. Conclusion The in vitro efficacy of GO against S. aureus in vitro suggested the compound could be further tested in Vivo to zrecognize its potential as one of the components of bovine mastitis therapy.

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Dynamic interactions and intracellular fate of label-free, thin graphene oxide sheets within mammalian cells: role of lateral sheet size

Cited by 3 publications

References 88 publications

Stable, concentrated, biocompatible, and defect-free graphene dispersions with positive charge

Stable, concentrated, biocompatible, and defect-free graphene dispersions with positive charge

Defect-free graphene enhances enzyme delivery to fibroblasts derived from patients with lysosomal storage disorders

Antimicrobial activities of graphene oxide against biofilm and intracellular Staphylococcus aureus isolated from bovine mastitis

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