期刊
ACS APPLIED MATERIALS & INTERFACES
卷 8, 期 47, 页码 32159-32169出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.6b10175
关键词
brain targeting delivery; magnetic targeting; PLGA nanoparticles; paclitaxel; curcumin; T7 peptide
资金
- 973 Program, China [2013CB932503, 2014CB931900]
- NFSC [81373357, 81402885, 81422048, 81673382]
- China's Postdoctoral Science Foundation [133646, 2014M551475]
Chemotherapy is one of the most important strategies for glioma treatment. However, the impermeability of the blood brain barrier (BBB) impedes most chemotherapeutics from entering the brain, thereby rendering very few drugs suitable for glioma therapy, letting alone application of a combination of chemotherapeutics. Thereby, there is a pressing need to overcome the obstacles. A dual-targeting strategy was developed by a combination of magnetic guidance and transferrin receptor-binding peptide T7-mediated active targeting delivery. The T7-modified magnetic PLGA nano particle (NP) system was prepared with co-encapsulation of the hydrophobic magnetic nanoparticles and a combination of drugs (i.e., paclitaxel and curcumin) based on a one-pot process. The combined drugs yielded synergistic effects on inhibition of tumor growth via the mechanisms of apoptosis induction and cell cycle arrest, displaying significantly increased efficacy relative to the single use of each drug. Dual-targeting effects yielded a >10-fold increase in cellular uptake studies and a >5-fold enhancement in brain delivery compared to the nontargeting NPs. For the in vivo studies with an orthotopic glioma model, efficient brain accumulation was observed by using fluorescence imaging, synchrotron radiation X-ray imaging, and MM. Furthermore, the antiglioma treatment efficacy of the delivery system was evaluated. With application of a magnetic field, this system exhibited enhanced treatment efficiency and reduced adverse effects. All mice bearing orthotopic glioma survived, compared to a 62.5% survival rate for the combination group receiving free drugs. This dual-targeting, co-delivery strategy provides a potential method for improving brain drug delivery and antiglioma treatment efficacy.
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