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1.
王锋  张超  郑栓 《中草药》2021,52(24):7473-7483
目的 成功制备雷公藤甲素(3-丙羧基)三苯基溴化膦(TPP)-聚乙二醇-b-聚己内脂(PEG-PCL)脂质体(Tr@TPP/Lip),评价其靶向性及促肝肿瘤细胞凋亡效果。方法 采用正交试验优选Tr@TPP/Lip的制备工艺,再研究该载药系统的粒径、Zeta电位、载药量、包封率和多分散系数及透射电镜微观形态,评价Tr@TPP/Lip的稳定性、溶血性、释放情况;采用荧光试验,研究脂质体与肝肿瘤细胞的融合情况、线粒体靶向性和肝脏靶向性;在等剂量给药条件下,评价Tr@TPP/Lip促肝癌细胞凋亡效果。结果 正交试验优选的Tr@TPP/Lip粒径为(113.5±17.6)nm,Zeta电位(12.6±0.7)mV,包封率为(71.3±3.2)%,载药量为(3.9±1.1)%,多分散系数为0.12±0.04;透射电子显微镜图片显示Tr@TPP/Lip呈规则圆球形,该脂质体稳定性良好,具有较小的溶血率和良好的缓释药物性能;荧光试验结果显示,TPP阳离子能促进脂质体与肿瘤细胞的融合,并靶向线粒体,还能提高药物在肝肿瘤部位的靶向和滞留效果;细胞药效结果显示,Tr@TPP/Lip具有良好的促肝肿瘤细胞凋亡效果,能明显降低线粒体膜Zeta电位、增加细胞内活性氧水平和Caspase-3的释放,显著增加促凋亡蛋白Bcl-2、减少抗凋亡Bax蛋白的表达,这些细胞凋亡试验结果均明显优于雷公藤甲素普通脂质体和雷公藤甲素。结论 Tr@TPP/Lip具有较好的线粒体靶向功能,能增强药物促肝肿瘤细胞凋亡效果。  相似文献   
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BackgroundSilymarin, a known hepatoprotectant, owing to its poor oral bioavailability, has limited pharmacological effects. The present study was designed to improve its in vitro and in vivo hepatoprotection and increase its oral bioavailability against alcohol intoxication by formulating it in four different liposomal formulations namely conventional, dicetyl phosphate, stearyl amine and PEGylated liposomes.MethodThe liposomes were prepared using phosphatidylcholine, cholesterol, and silymarin in addition to dicetyl phosphate, stearyl amine and DSPE mPEG 2000 by film hydration method with 5% sucrose as a cryo-protectant. The optimized formulations were studied for their release profile at pH 1.2 and 6.8. Liposomes were studied for in vitro protection on Chang liver cells and efficacious liposomes were selected for in vivo hepatoprotection study. Further, conventional liposomes were studied for bioavailability in alcohol intoxicated Wistar rats.ResultsThe conventional liposomes increased in vitro release profile at pH 1.2 and 6.8 and also showed better in vitro protection compared to silymarin alone. Conventional and PEGylated liposomes showed better improvement in liver function, better efficacy in combating inflammatory conditions, better improvement in antioxidant levels and reversal of histological changes compared to silymarin alone. Conventional also showed an almost fourfold increase in area under the curve compared to silymarin suspension.ConclusionConventional and PEGylated liposomes of silymarin were found to be more efficacious as hepatoprotective against alcohol-induced hepatotoxicity by its free radical scavenging and anti-inflammatory effects. Conventional liposomes showed enhanced bioavailability compared to silymarin alone.  相似文献   
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Systemic administration of drugs is ineffective in the treatment of central nervous system disorders because of the blood-brain barrier. Nasal administration has been suggested as an alternative administration route as drugs absorbed in the olfactory epithelium bypass the blood-brain barrier and reach the brain within minutes. However, the nasal mucosa properties (e.g., tonicity, pH) are not constant because of physiological and environmental factors, and this might limit the therapeutic outcome of nanocarrier-based formulations. To shine light on the impact of environmental ionic strength on nanocarrier-based formulations, we have studied how liposomal formulations respond to the change of tonicity of the external environment. Large unilamellar vesicles loaded with 6 different drugs were exposed to different hypotonic environments, creating an osmotic gradient within the inner core and external environment of the liposomes up to 650 mOsm/kg. Both size and polydispersity of liposomes were significantly affected by tonicity changes. Moreover, the release kinetics of hydrophilic and lipophilic drugs were largely enhanced by hypotonic environments. These results clearly demonstrate that the environmental ionic strength has an impact on liposomal formulation stability and drug release kinetics and it should be considered when liposomal formulations for nose-to-brain targeted drug delivery are designed.  相似文献   
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Prion accumulation in the brain and lymphoreticular system causes fatal neurodegenerative diseases. Our previous study revealed that cellulose ethers (CE) have anti-prion activities in vivo and in prion-infected cells when administered at high doses. This study aims to improve the bioavailability of a representative CE using a liposomal formulation and characterized CE-loaded liposomes in cultured cells. The liposomal formulation reduced the EC50 dose of CE by <1/200-fold in prion-infected cells. Compared to empty liposomes, CE-loaded liposomes were taken up much more highly by prion-infected cells and less by macrophage-like cells. Phosphatidylserine modification reduced the uptake of CE-loaded liposomes in prion-infected cells and did not change the anti-prion activity, whereas increased the uptake in macrophage-like cells. Polyethylene glycol modification reduced the uptake of CE-loaded liposomes in both types of cells and reduced the anti-prion activity in prion-infected cells. These results suggest that a liposomal formulation of CE is more practical than unformulated CE and showed that the CE-loaded liposome uptake levels in prion-infected cells were not associated with anti-prion activity. Although further improvement of the stealth function against phagocytic cells is needed, the liposomal formulation is useful to improve CE efficacy and elucidate the mechanism of CE action.  相似文献   
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Protein‐bound uremic toxins (PBUTs) accumulate at high plasma levels and cause various deleterious effects in end‐stage renal disease patients because their removal by conventional hemodialysis is severely limited by their low free‐fraction levels in plasma. Here, we assessed the extent to which solute removal can be increased by adding liposomes to the dialysate. The uptake of liposomes by direct incubation in vitro showed an obvious dose‐response relationship for p‐cresyl sulfate (PCS) and indoxyl sulfate (IS) but not for hippuric acid (HA). The percent removal of both PCS and IS but not of HA was gradually increased with the increased concentration of liposomes in a rapid equilibrium dialysis setup. In vitro closed circulation showed that adding liposomes to the dialysate markedly increased the dialysances of PBUTs without greatly altering that of urea and creatinine. In vivo experiments in uremic rats demonstrated that adding liposomes to the dialysate resulted in higher reduction ratios (RRs) and more total solute removal (TSR) for several PBUTs compared to the conventional dialysate, which was approximately similar to the addition of bovine serum albumin to the dialysate. These findings highlight that as an adjunct to conventional hemodialysis, addition of liposomes to the dialysate could significantly improve the removal of protein‐bound uremic solutes without greatly altering the removal of small, water‐soluble solutes.  相似文献   
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ABSTRACT

Introduction

For several years now, medicine has been benefiting from the contribution of nanoparticles (NPs) technology for both diagnosis and therapy. They can be used as adjuvants, being capable per se of immune-modulating activity, or as carriers for molecules to be transported to a specific target, eventually loaded with specific ligands favoring specific uptake.  相似文献   
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Context Opioids have been used as the reference treatment on chronic pain. However, they are related to serious adverse effects which affect the patient compliance to treatment, as well as, his quality of life. Particulate formulations have been investigated as an alternative to improve opioid efficacy and safety. Objective Summarise the available studies concerning micro and nanoencapsulated opioid formulations discussing their biopharmaceutical characteristics, such as composition, size, in vitro release, pharmacokinetic and antinociceptive profile. Methods Papers available in 1995–2015 at Medline, Science Direct and Web of Science databases were collected and assessed. Searches were performed using varied combinations of the keywords of this work. Results Opioid-loaded particles showed prolonged drug release with maintenance of serum therapeutic concentrations and extended analgesia when compared with the free drugs. The side effects incidences were reduced or maintained the same. Conclusion Particulate formulations can significantly increase both potency and safety profiles of opioids.  相似文献   
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目的::制备具有靶向性抗耐药菌作用的左氧氟沙星脂质体,并考察其体外抗菌活性。方法:采用硫酸铵梯度法,用Ts修饰脂质体膜,制备具双重杀菌机制的靶向左氧氟沙星脂质体,考察其表征及包封率。比较游离左氧氟沙星、左氧氟沙星与 Ts 联合、非靶向及靶向左氧氟沙星脂质体对耐药菌株的最小抑菌浓度( MIC)及对肺炎克雷伯标准菌株的时间杀菌活性,并分析协同效应。结果:靶向左氧氟沙星脂质体包封率(75.26±1.35)%,粒径(152.5±3.2)nm,zeta电位+20.68±1.72,多分散性0.149±0.02,1个月内稳定性较好,其MIC均低于其他剂型,FIC≤0.5,显示协同效应;在同一时间内抑菌数量最多,时间杀菌效果显著。结论:相对游离剂型和非靶向脂质体,靶向左氧氟沙星脂质体对耐药菌具备更强的抗菌活性。  相似文献   
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