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Preparation and in Vitro Evaluation of Paclitaxel-loaded Core-Shell Structural Phospholipid-Functionalized Mesoporous Silica Nanoparticles Modified with Angiopep-2

??OBJECTIVE To prepare and evaluate the novel core-shell structural phospholipid-functionalized mesoporous silica nanoparticles (MSN-LP) modified with angiopep-2 (ANG-MSN-LP). METHODS Mesoporous silica nanoparticles (MSN) was synthesized by the modified Stober method. MSN-PTX was prepared by saturated solution adsorption method. ANG-MSN-LP was developed by selfassembly and film hydration method. By using dialysis bag method to investigate the in vitro drug release characteristics and MTT method to investigate the cytotoxicity on HBMEC and C6 cells. The transport ability and effects on cell cycle of the carrier was investigated by the BBB monolayer model. RESULTS MSN was synthesized with high specific surface area (S_BET, 425 m²??g^-1), cumulative pore volume (V_p, 0.37 cm³??g^-1) and pore size(3.5 nm). PTX was highly encapsulated (drug loading efficiency up to 11.1%) into MSN. Results of in vitro release showed that about 75.5% of PTX released from ANG-MSN-LP-PTX after 48 h and burst release was effectively reduced compared with MSN-PTX or PTX solution, indicating pronounced sustained-release characteristics. The good biocompatibility and low toxicity of ANG-MSN-LP were evaluated by HBMEC and C6 cells. The transport ratio was 2.49% for PTX, 2.72% for MSN-PTX, 4.45% for MSN-LP-PTX and 10.74% for ANG-MSN-LP-PTX respectively. In addition, ANG-MSN-LP-PTX showed a higher cell number of G2-M phase of 40.92??6.20%. CONCLUSION ANG-MSN-LP is a prospective targeting drug delivery system for therapy of brain glioma. Meanwhile, saturated solution adsorption method can increase the drug loading efficiency highly.