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Literature DB >> 29545216

Inhibiting pulmonary metastasis of breast cancer based on dual-targeting graphene oxide with high stability and drug loading capacity.

Jing Li¹, Xiao Liang¹, Jun Zhang¹, Yunzhi Yin¹, Tiantian Zuo¹, Yiyue Wang¹, Xiaoming Yang¹, Qi Shen².

Abstract

In this study, heparin and polyethyleneimine-folic acid modified graphene oxide was designed and synthesized as a dual-targeting biomaterial to load doxorubicin (DOX@GPFH) with high loading capacity for enhanced cellular uptake. GDC0941, a phosphatidylinositide 3-kinase/Akt phosphorylation inhibitor, was selected to enhance anti-metastasis effect of DOX@GPFH via down-regulating expression of matrix metalloproteinase. Modified with heparin, the stability of DOX@GPFH was significantly enhanced and the drug loading ratio increased largely from 64.4% to 125.1%. The inhibition rates of the mixture of DOX@GPFH and GDC0941 in vitro by wound healing, cell migration and invasion assays were 61.2%±13.9%, 81.0%±3.6% and 76.8%±5.2%, respectively, while the tumor and the pulmonary anti-metastasis rates tested in vivo were 77.0%±7.6% and 73.7%±9.6%, respectively. Our findings illustrated an effective approach for developing dual-targeting graphene oxide with high drug loading for pulmonary anti-metastasis of breast cancer.

Entities: Chemical Disease

Keywords: Doxorubicin; Dual-targeting; GDC0941; Graphene oxide; Metastasis

Mesh：

Substances：

Year: 2018 PMID： 29545216 DOI： 10.1016/j.nano.2018.02.012

Source DB: PubMed Journal: Nanomedicine ISSN： 1549-9634 Impact factor: 5.307

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Cited

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