1. Hybrid Membrane-Derived Nanoparticles for Isoliquiritin Enhanced Glioma Therapy.
- Author
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Shi, Wenwan, Cao, Xia, Liu, Qi, Zhu, Qin, Liu, Kai, Deng, Tianwen, Yu, Qingtong, Deng, Wenwen, Yu, Jiangnan, Wang, Qilong, and Xu, Ximing
- Subjects
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GLIOMAS , *MEMBRANE fusion , *BIOAVAILABILITY , *BLOOD-brain barrier , *NANOPARTICLES , *PARTICLE analysis , *NANOCARRIERS - Abstract
Due to the obstruction and heterogeneity of the blood-brain barrier, the clinical treatment of glioma has been extremely difficult. Isoliquiritigenin (ISL) exhibits antitumor effects, but its low solubility and bioavailability limit its application potential. Herein, we established a nanoscale hybrid membrane-derived system composed of erythrocytes and tumor cells. By encapsulating ISL in hybrid membrane nanoparticles, ISL is expected to be enhanced for the targeting and long-circulation in gliomas therapy. We fused erythrocytes with human glioma cells U251 and extracted the fusion membrane via hypotension, termed as hybrid membrane (HM). HM-camouflaged ISL nanoparticles (ISL@HM NPs) were prepared and featured with FT-IR, SEM, TEM, and DLS particle analysis. As the results concluded, the ISL active pharmaceutical ingredients (APIs) were successfully encapsulated with HM membranes, and the NPs loading efficiency was 38.9 ± 2.99% under maximum entrapment efficiency. By comparing the IC50 of free ISL and NPs, we verified that the solubility and antitumor effect of NPs was markedly enhanced. We also investigated the mechanism of the antitumor effect of ISL@HM NPs, which revealed a marked inhibition of tumor cell proliferation and promotion of senescence and apoptosis of tumor cells of the formulation. In addition, the FSC and WB results examined the effects of different concentrations of ISL@HM NPs on tumor cell disruption and apoptotic protein expression. Finally, it can be concluded that hybridized membrane-derived nanoparticles could prominently increase the solubility of insoluble materials (as ISL), and also enhance its targeting and antitumor effect. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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