In vivo targeting of metastatic breast cancer via tumor vasculature-specific nano-graphene oxide

Yang, Dongzhi; Feng, Liangzhu; Dougherty, Casey A.; Luker, Gary D.; Chen, Daiqin; Cauble, Meagan A.; Holl, Mark M. Banaszak; Luker, Gary D.; Ross, Brian D.; Liu, Zhuang; Hong, Hao

doi:10.1016/j.biomaterials.2016.07.029

Cited by 111 publications

(47 citation statements)

References 51 publications

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“…In parallel to these phenotypes, GO accumulation could be visualized in the lung, as characterized by dark spots representative of GO-cell complexes (indicated by arrows) (Figure 6a and c), analogous to previous studies. 67 In stark contrast, no significant damages were observed in lung sections from mice administrated with bulk MoS 2 , Lys-MoS 2 , FA-MoS 2 and MoS 2 /GO (Figure 6a and b). Plus, no observable pathological alterations were recognized in hearts, spleens and kidneys in all treated mice by these materials (Supplementary Figures S10 − S12).…”

Section: Preferential Lung Accumulation Of Mos 2 /Go Nanocompositesmentioning

confidence: 88%

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

et al. 2018

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Selective targeting plus optimal biocompatibility is still a big challenge in nanomedicine. Although many nanomaterials including graphene oxide (GO) and molybdenum disulfide (MoS 2 ) have been tested for this purpose, these materials possess both favorable features and drawbacks, which hampers their further development. Herein, we prepared MoS 2 /GO nanocomposites that manifested excellent dispersity in aqueous solutions and revealed acceptable biocompatibility in vitro and in vivo. Importantly, MoS 2 /GO displayed a novel feature to selectively target the lung. In other words, MoS 2 /GO manifested a pronounced tendency of localization towards the lung comparable to GO, offering a 'guided missile' effect in targeting the lung. Furthermore, MoS 2 /GO composites possessed enhanced drug loading capacity together with reinforced tumor-killing efficacy against cancer cells that have the propensity to metastasize to the lung. Importantly, MoS 2 /GO composites remarkably repressed metastatic tumor growth of B16 murine melanoma cancer cells in lungs of mice. Mechanistically, MoS 2 /GO was demonstrated to reveal compromised reactions towards macrophages at the nano-bio interface relative to GO, which is accountable for the interaction and the uptake of nanosheets by macrophages associated with phagocytosis and macrophagic activation. Considered together, our findings established new MoS 2 /GO nanocomposites with multi-functionalities including selective lung targeting, favorable drug loading capacity, elevated tumor killing efficacy and improved biocompatibility. Our study opens an avenue for MoS 2 /GO nanocomposites in cancer nanotheranostics.

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Section: Preferential Lung Accumulation Of Mos 2 /Go Nanocompositesmentioning

confidence: 88%

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

et al. 2018

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“…Such modified forms of graphene can include materials such as iron oxide nanoparticles, polypyrrole, and silver nanoparticles, and the combination of these materials with graphene oxide can be induced to release more drug loaded onto them through the external application of stimuli such as magnetic fields, electricity, and near‐infrared light, respectively . Graphene can also be functionalized with a wide variety of materials that would allow for the specific targeting of cancer cells, including folic acid, antibodies, and RGD peptides . Such modifications can not only enable higher effective doses of drug delivered to cancer cells, but can also reduce the toxicity to surrounding healthy tissue caused by nonspecific delivery.…”

Section: Discussionmentioning

confidence: 99%

Oxidized graphene nanoparticles as a delivery system for the pro‐apoptotic sphingolipid C₆ ceramide

Suhrland

Truman

Obeid

et al. 2018

J Biomedical Materials Res

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Sphingolipids such as ceramide have attracted much attention as possible anticancer agents due to their potent proapoptotic effects. However, due to their extreme hydrophobicity, there is currently no clinically approved delivery method for in vivo use as a therapeutic agent. To this end, we have developed a novel method for loading the short-chain C 6 ceramide onto oxidized graphene nanoribbons (O-GNRs) and graphene nanoplatelets (GNPs). Mass spectrometry revealed loading efficiencies of 57% and 51.5% for C 6 ceramide onto O-GNRs and GNPs, respectively. The PrestoBlue viability assay revealed that 100 μg/mL of C 6 ceramide-loaded O-GNRs and C 6 ceramide-loaded GNPs reduced HeLa cell viability by approximately 93% and approximately 76%, respectively, compared to untreated HeLa cells, while equal concentrations of these nanoparticles without C 6 ceramide did not significantly reduce HeLa cell viability. We confirmed that this cytotoxicity was apoptotic in nature via capase-3 activity and Hoechst staining. Using live-cell confocal imaging with the fluorescent NBD-ceramide loaded on O-GNRs, we observed robust uptake into HeLa cells within 30 min while NBD-ceramide on its own was uptaken much more rapidly. Transmission electron microscopy confirmed that C 6 ceramide-loaded O-GNRs were actually entering cells. Taken together, these data show that O-GNRs are a promising delivery agent for ceramide. To our knowledge, this study is the first to use such a loading method.

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“…After the oxidation from graphene, abundant functional groups, such as epoxide, hydroxyl, and carboxylic acid, show up on the surface of GO (D. Yang et al, ). Such oxidation largely enhances the biocompatibility of GO and facilitates its combination with biomolecules (including proteins and anticancer drugs), thus making it a much better candidate for biomedical applications (Sharafeldin et al, ; C. Zhu, Du, & Lin, ; J. Zhu, Xu, et al, ).…”

Section: Graphene‐based Nanosheetsmentioning

confidence: 99%

Recent advancements in two‐dimensional nanomaterials for drug delivery

Mei

Wang

et al. 2019

WIREs Nanomed Nanobiotechnol

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Different from conventional zero‐dimensional (0D) and one‐dimensional (1D) counterparts, two‐dimensional (2D) nanomaterials show unique properties resulting from their specific structure and morphology. In recent years, broad interest has been focused on the exploration of 2D nanomaterials for drug delivery, which benefits greatly to various disease treatments due to the superior properties of 2D nanomaterials. The fast development of 2D‐based drug delivery systems provides great potential for biomedical studies. In this review, a case‐by‐case analysis was carried out on the state‐of‐the‐art 2D nanomaterials‐based drug delivery systems, which possesses great significance to the further biomedical development of 2D nanomaterials. For the purpose of discussing the special advantages of these novel drug delivery systems, this review is organized according to the different types of the latest 2D nanomaterials and their loading capacity towards various cargos. Special emphasis will be located on the application of these 2D nanomaterials‐based drug delivery systems in chemotherapy, gene therapy, and immunotherapy. This article is categorized under: Therapeutic Approaches and Drug Discovery > Emerging Technologies

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In vivo targeting of metastatic breast cancer via tumor vasculature-specific nano-graphene oxide

Cited by 111 publications

References 51 publications

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

Oxidized graphene nanoparticles as a delivery system for the pro‐apoptotic sphingolipid C₆ ceramide

Recent advancements in two‐dimensional nanomaterials for drug delivery

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In vivo targeting of metastatic breast cancer via tumor vasculature-specific nano-graphene oxide

Cited by 111 publications

References 51 publications

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

Molybdenum disulfide/graphene oxide nanocomposites show favorable lung targeting and enhanced drug loading/tumor-killing efficacy with improved biocompatibility

Oxidized graphene nanoparticles as a delivery system for the pro‐apoptotic sphingolipid C6 ceramide

Recent advancements in two‐dimensional nanomaterials for drug delivery

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Oxidized graphene nanoparticles as a delivery system for the pro‐apoptotic sphingolipid C₆ ceramide