Functionalized Graphene Oxide Thin Films for Anti-tumor Drug Delivery to Melanoma Cells

Sima, Livia Elena; Chirițoiu, Gabriela; Neguț, Irina; Grumezescu, Valentina; Orobeti, Stefana; Munteanu, Cristian V. A.; Sima, Félix; Axente, E.

doi:10.3389/fchem.2020.00184

Cited by 25 publications

(21 citation statements)

References 43 publications

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“…Clinical studies have demonstrated that HDACi can affect different biological processes ( 21 ). In the present study, we explored the direct effects of TSA on endothelial cell gene expression, proliferation, and tube formation.…”

Section: Discussionmentioning

confidence: 99%

Histone Deacetylase Inhibitor Trichostatin A Reduces Endothelial Cell Proliferation by Suppressing STAT5A-Related Gene Transcription

Zhao

Peng

et al. 2021

Front. Oncol.

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Inhibitors of histone deacetylases (HDACi) have shown promising effects in preclinical applications for the treatment of many diseases. Confusedly though, the effects of the HDACi trichostatin A (TSA) on angiogenesis are variable among different diseases. This study investigated the direct effects of TSA on endothelial cells, which plays essential roles in angiogenesis and the underlying molecular events. TSA reduced the viability of human umbilical vein endothelial cells (HUVECs), in which proliferation-related genes including BIRC5, CKS1B, and NDC80 were found to be involved. Furthermore, signal transducer and activator of transcription 5 A (STAT5A) was demonstrated to be reduced by TSA and to mediate TSA-induced downregulation of BIRC5, CKS1B, and NDC80 and HUVEC proliferation. Mechanistically, data showed that STAT5A directly bound to the promoters of BIRC5, CKS1B, and NDC80 and activated their transcription through special DNA sequence sites. Finally, the TSA–STAT5A–BIRC5, CKS1B, and NDC80 axis also worked in a cancerous endothelial cell angiogenesis model. The results of this study revealed novel mechanisms underlying the effects of TSA on endothelial cells and provided insights for angiogenesis-associated diseases.

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Section: Discussionmentioning

confidence: 99%

Histone Deacetylase Inhibitor Trichostatin A Reduces Endothelial Cell Proliferation by Suppressing STAT5A-Related Gene Transcription

Zhao

Peng

et al. 2021

Front. Oncol.

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“…Inorganic, organic, hybrid coatings: Chitosan/ bio-mimetic apatite [61], CaPs, biopolymers [62,63] Levan and Chitosan blends [64], Graphene Oxide, BSA protein, drugs [65]/Implant devices, drug delivery, model surfaces.…”

Section: Combinatorial-matrix Assisted Pulsed Laser Evaporation (C-ma...mentioning

confidence: 99%

“…Since then, MAPLE has evolved to produce a broad spectrum of organic, inorganic, and hybrid coatings [109][110][111][112] for various biomedical applications as well as for energy [113][114][115], sensing [116][117][118], wearable electronics, and photonic devices [98,119]. Indeed, although initially designed for polymers, the method proved successful for a large variety of compounds such as proteins [106,107], enzymes [120,121], polysaccharides [103,122,123], calcium phosphates [24,55,124,125], nanoparticles [126,127], proteins and drug functionalized graphene oxide [65], or carbon nanostructures embedded in organic matrices [128]. Its maturity has already been achieved and existing commercial installations fulfil the anticipations of the scientific community [129].…”

Section: Matrix Assisted Pulsed Laser Evaporationmentioning

confidence: 99%

“…The goal of adopting such irradiation geometry is necessary when the generation of compositional gradient coatings is applied in a single-step process. One possible application revealed a possibility of investigating a drug dose-dependent effect when incorporated into the coatings, with respect to controlled delivery for cancer studies [65].…”

Section: Matrix Assisted Pulsed Laser Evaporationmentioning

confidence: 99%

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Biomimetic Coatings Obtained by Combinatorial Laser Technologies

Axente

Sima

2020

Coatings

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The modification of implant devices with biocompatible coatings has become necessary as a consequence of premature loosening of prosthesis. This is caused mainly by chronic inflammation or allergies that are triggered by implant wear, production of abrasion particles, and/or release of metallic ions from the implantable device surface. Specific to the implant tissue destination, it could require coatings with specific features in order to provide optimal osseointegration. Pulsed laser deposition (PLD) became a well-known physical vapor deposition technology that has been successfully applied to a large variety of biocompatible inorganic coatings for biomedical prosthetic applications. Matrix assisted pulsed laser evaporation (MAPLE) is a PLD-derived technology used for depositions of thin organic material coatings. In an attempt to surpass solvent related difficulties, when different solvents are used for blending various organic materials, combinatorial MAPLE was proposed to grow thin hybrid coatings, assembled in a gradient of composition. We review herein the evolution of the laser technological process and capabilities of growing thin bio-coatings with emphasis on blended or multilayered biomimetic combinations. These can be used either as implant surfaces with enhanced bioactivity for accelerating orthopedic integration and tissue regeneration or combinatorial bio-platforms for cancer research.

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“…The graphene family materials, including graphene oxide (GO), reduced/functionalized graphene oxide (rGO), graphene quantum dots, graphene nanoribbons, 3D (three-dimensional) graphene foam, and graphene nanopores, all are known to exert enormous effects in various biomedical applications. These materials were tried as antibacterial [25,26], anticancer [27,28], drug delivery [29][30][31], bio-sensing [32][33][34], and bio-imaging [35,36] processes owing to their differential interactions with biosystems and biomolecules under in vivo and in vitro conditions. This potential ascended from the characteristic physical, chemical, and mechanical properties of NPs and flakes to participate in biological processes at subcellular, cellular, and upcellular levels and scales.…”

Section: Introductionmentioning

confidence: 99%

Gold Nanoparticles and Graphene Oxide Flakes Synergistic Partaking in Cytosolic Bactericidal Augmentation: Role of ROS and NOX2 Activity

et al. 2021

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Gold nanoparticles (GNPs) and graphene oxide flakes (GOFs) exerted significantly (p < 0.0001) supportive roles on the phagocytosis bioactivity of the immune cells of phagocytic nature against the Gram-positive and Gram-negative human pathogenic bacteria Staphylococcus aureus and Escherichia coli. Under experimental conditions, upon bacterial exposure, the combined GNPs and GOFs induced significant clearance of bacteria through phagosome maturation (p < 0.0001) from time-points of 6 to 30 min and production of reactive oxygen species (ROS, p < 0.0001) through the NADPH oxidase 2 (NOX2, p < 0.0001)-based feedback mechanism. The effects of the combined presence of GNPs and GOFs on phagocytosis (p < 0.0001) suggested a synergistic action underway, also achieved through elevated signal transduction activity in the bone-marrow-derived macrophages (BMDM, p < 0.0001). The current study demonstrated that GNPs’ and GOFs’ bactericidal assisting potentials could be considered an effective and alternative strategy for treating infections from both positive and negative bacterial strains.

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Functionalized Graphene Oxide Thin Films for Anti-tumor Drug Delivery to Melanoma Cells

Cited by 25 publications

References 43 publications

Histone Deacetylase Inhibitor Trichostatin A Reduces Endothelial Cell Proliferation by Suppressing STAT5A-Related Gene Transcription

Histone Deacetylase Inhibitor Trichostatin A Reduces Endothelial Cell Proliferation by Suppressing STAT5A-Related Gene Transcription

Biomimetic Coatings Obtained by Combinatorial Laser Technologies

Gold Nanoparticles and Graphene Oxide Flakes Synergistic Partaking in Cytosolic Bactericidal Augmentation: Role of ROS and NOX2 Activity

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