水溶性壳聚糖包覆多西他赛纳米脂质体的制备及性能研究

目的:制备羧甲基壳聚糖包衣多西他赛纳米脂质体,并考察其体外释放度。方法:采用薄膜分散法制备多西他赛阳离子脂质体,并用不同浓度的羧甲基壳聚糖包覆阳离子脂质体;用超滤法测定其包封率;用激光电位粒径测定仪分别测定其Zeta电位和粒径大小,并用透射电镜观察其形态;用透析法考察其体外释药性质。结果:所制的羧甲基壳聚糖包覆的脂质体包封率达99.98%;Zeta电位为-12.8 mV,平均粒径为(150±17)nm。结论:本实验制备的羧甲基壳聚糖包衣多西他赛纳米脂质体具有高包封率,粒径大小均匀,体外能显著延缓药物释放的性质。     

两亲性壳聚糖包覆紫杉醇脂质体的制备及体外释放研究

目的:制备两亲性壳聚糖N-辛基-N,O-羧甲基壳聚糖包覆紫杉醇脂质体(PTX-LP-OCC),并考察其理化性质及体外释放行为。方法:采用基于乙醇的前体脂质体法制备紫杉醇脂质体并以OCC包覆,并以普通脂质体(PTX-LP)为对照,测定其包封率、粒径大小、电位,观测其形态及稳定性,然后采用全体液平衡反向透析法研究体外释放行为。结果:紫杉醇脂质体包封率为89.5%,粒径为236.5 nm,Zeta电位为-31.4 mV,多糖包覆修饰后药物包封率无显著变化,粒径及Zeta电位显著增加,脂质体稳定性显著提高,药物释放呈缓释特征,且突释显著降低。结论:两亲性壳聚糖包覆脂质体是一个有前景的抗肿瘤药物递送载体     

去甲斑蝥素脂质体的制备及其体外释放特性的研究

目的:制备去甲斑蝥素(NCTD)脂质体并探讨其药剂学性质。方法:采用逆向薄膜蒸发法制备NCTD-脂质体,并采用正交设计优化处方工艺,利用平衡透析法对含NCTD的载药脂质体进行体外释放的评价。结果:影响包封率和粒径的因素,依次为A>C>B,各因素组合以A2C1B2最佳,即磷脂-药物质量比为10∶1,磷脂-胆固醇质量比为5∶1,超声次数为10次;制得的NCTD-脂质体的粒径为(90.50±2.40)nm,包封率为(34.7±1.3)%,实验结果显示缓释效果明显。结论:逆向薄膜蒸发法制备的NCTD-脂质体,其性质稳定,具有显著的体外缓释特性。     

葛根素磷脂复合物纳米粒的制备及体外评价

目的制备葛根素磷脂复合物,以聚氰基丙烯酸正丁酯(PBCA)为载体材料,制备葛根素磷脂复合物纳米粒,并对其进行体外评价。方法采用界面缩合聚法制备纳米粒。以复合率、包封率和载药量为评价指标,通过单因素和正交试验法优选处方和工艺。结果葛根素磷脂复合物的最佳处方及工艺:反应溶剂为无水乙醇,葛根素与磷脂的投料比为1∶2;葛根素磷脂复合物纳米粒的最佳处方及工艺:pH=3.0、α-氰基丙烯酸正丁酯(α-BCA)的浓度为0.8%、V油相∶V水相=1∶60、葛根素磷脂复合物的投药量为1.0 mg。制备的纳米粒平均粒径为(115.1±3.45)nm、包封率为(90.03±1.80)%、载药量为(11.80±0.12)%。体外释药在24 h累积释放量约为80%。结论本研究所制备的葛根素磷脂复合物纳米粒包封率和载药量高、性质稳定、体外释药具有缓释行为。     

羧甲基壳聚糖包衣尼莫地平纳米脂质体的制备及体外释药研究

目的：制备羧甲基壳聚糖包衣尼莫地平纳米脂质体，并对其进行体外释药考察。方法：采用薄膜分散法制备尼莫地平脂质体，并用不同浓度的羧甲基壳聚糖包衣，经高压均质机多次乳匀得到羧甲基壳聚糖包衣尼莫地平纳米脂质体。以包封率为指标，筛选最佳处方；用激光粒度分析仪测定其Zeta电位，粒径大小及分布，并用透射电镜观察其形态；用透析法考察其体外释药性质。结果：羧甲基壳聚糖与脂材比例为1：4制备得到的脂质体包封率最高，平均为（75．2±3．1）％（n=3）；Zeta电位为（-9．3±1．2）mV，平均粒径为（85．7±8．2）nm，（n=3）；体外释药曲线符合Higuchi方程：Q=-0．1926＋0．357 9t1/2，（r=0．9800）。结论：本实验制备的羧甲基壳聚糖包衣尼莫地平纳米脂质体具有包封率高，粒径小，大小均匀，体外能显著延缓药物释放的性质，值得进一步研究。     

去甲斑蝥素壳聚糖微球的制备及其体外释放特性

目的:制备去甲斑蝥素壳聚糖微球,并考察其体外释放特性.方法:以液体石蜡为油相,Span-80为乳化剂,甲醛作为交联剂,采用乳化-交联法制备去甲斑蝥素壳聚糖微球.均匀设计优化制备工艺,扫描电镜观察微球表面形态,动态透析法检测微球的体外释放特性.结果:制备的微球形态圆整,粒径分布较为均匀,平均粒径(25±10)μm,载药量(15.08±2.85)%,包封率(57.80±1.35)%.微球在0.1 mol·L-1HCl、磷酸盐缓冲液(pH值5.3)和生理氯化钠溶液中的释放均遵循Higuchi方程.结论:所优化的制备工艺简单易行,载药量高,缓释作用显著.     

胰岛素纳米粒温敏凝胶的制备及体外释药性能

目的:制备胰岛素壳聚糖温度敏感型原位凝胶(INS-CS-NP-TISG)并进行体外释药动学考察。方法:采用离子凝胶化法制备胰岛素壳聚糖纳米粒;均匀设计法优化其处方及制备工艺,观察形态,测定粒径、表面电位、包封率和载药量;冷法配液的方法制备温度敏感型原位凝胶,改进透析袋-恒温水浴法研究胰岛素壳聚糖纳米粒温度敏感型原位凝胶溶液的体外释药动学。结果:优化制得的纳米粒呈类球形,均匀圆整,分散性好;平均粒径为(255.3±143.5)nm,在175.2~349.6nm范围内的纳米粒子达99.4%,大小均匀,分布较窄;高效液相色谱法(HPLC)测定胰岛素壳聚糖纳米粒平均包封率和载药量分别为75.84%与58.52%;表面电位(ζ)为+32.67;在人工鼻黏液中,胰岛素壳聚糖纳米粒温度敏感型原位凝胶的体外释药符合双相动力学方程,且持续释药24h。结论:选用合适的处方制备胰岛素壳聚糖纳米粒温度敏感型原位凝胶,方法简便,药物载药量高,具有较好的生物黏附性,并有一定的缓释作用。     

去甲斑蝥素脂质体的制备工艺优化及其药剂学性质研究

目的:优化去甲斑蝥素脂质体的制备工艺,并对其药剂学性质进行评价。方法:以包封率、平均粒径及跨距为综合指标,分别考察4种制备方法即薄膜分散法、注入法、逆相蒸发法和逆相蒸发薄膜法对去甲斑蝥素脂质体包封率和粒径的影响;以磷脂的量(X1)、磷脂/胆固醇质量比(X2)、探头式超声次数(X3)、磷酸盐缓冲液稀释倍数(X4)、油水相体积比(X5)和脂类与药物的质量比(X6)为考察因素,采用均匀设计优化逆相蒸发薄膜法制备载药脂质体的制备工艺,并对最佳工艺进行验证试验。结果:以逆相蒸发薄膜法制备脂质体包封率最高;最佳工艺:X1为200mg、X2为7∶1、X3为20次、X4为50倍、X5为1∶4、X6为30∶1;验证试验中样品脂质体包封率为(42.5±1.3)%,平均粒径为(210.9±2.1)nm,跨距为0.61±0.12。结论:成功制备了去甲斑蝥素脂质体。     

脒修饰的包载荧光探针香豆素-6脂质体的制备

目的研究3,5-二-十五烷氧基苯甲脒(DBH)修饰的香豆素-6脂质体的制备工艺,并初步考察该脂质体的体外释放性能和肾小球靶向性。方法首先合成DBH。再以其为配基,胆固醇、大豆磷脂为载体材料,采用薄膜分散-超声法制备脒修饰的载香豆素-6荧光探针脂质体,考察其粒径分布、Zeta电位、包封率及体外累积释药率。结果脒基修饰的香豆素-6脂质体形态圆整,粒径分布为120.7±2.4 nm,Zeta电位为12.6±1.6 m V,包封率为99.7%±1.8%,体外的48 h累积释药量小于2%。结论脒基修饰的香豆素-6脂质体的制备工艺简便易操作,包封率高,性质稳定。     

羟基喜树碱包衣纳米脂质体的制备及体外释药研究

目的:进行羟基喜树碱氯化壳聚糖包衣纳米脂质体(Nanoliposome,N-liposome)的制备及体外释药考察,以提高包封率和稳定性.方法:采用薄膜分散法制备羟基喜树碱脂质体并用氯化壳聚糖包衣,经高压均质机多次乳匀得到纳米脂质体(＜100nm),用激光粒度分析仪测定其zeta电位、粒径大小及分布,用不同冻干保护剂进行冷冻干燥,用透析法考察药物体外释药性质.结果:包衣纳米脂质体zeta电位为 55.1mV,平均粒径(ZAve)为91.9 nm,粒径分布为20～120 nm;以15%(W/V)的海藻糖做冻干保护剂的脂质体冻干前后粒径变化最小,再水化后平均粒径为98.2 nm,包封率为(61.2±1.2)%(n=3);氯化壳聚糖包衣脂质体外释药曲线符合Higuchi方程(Q=0.055 0.0228t1/2).结论:本试验制备的羟基喜树碱包衣纳米脂质体具有包封率高,稳定性好,大小均匀,以及体外能显著延缓药物的释放的性质.     

Fusogenic pH sensitive liposomal formulation for rapamycin: Improvement of antiproliferative effect

Context: Liposomes are increasingly employed to deliver chemotherapeutic agents, antisense oligonucleotides, and genes to various therapeutic targets.

Objective: The present investigation evaluates the ability of fusogenic pH-sensitive liposomes of rapamycin in increasing its antiproliferative effect on human breast adenocarcinoma (MCF-7) cell line.

Materials and methods: Cholesterol (Chol) and dipalmitoylphosphatidylcholine (DPPC) (DPPC:Chol, 7:3) were used to prepare conventional rapamycin liposomes by a modified ethanol injection method. Dioleoylphosphatidylethanolamine (DOPE) was used to produce fusogenic and pH-sensitive properties in liposomes simultaneously (DPPC:Chol:DOPE, 7:3:4.2). The prepared liposomes were characterized by their size, zeta potential, encapsulation efficiency percent (EE%), and chemical stability during 6 months. The antiproliferative effects of both types of rapamycin liposomes (10, 25, and 50?nmol/L) with optimized formulations were assessed on MCF-7 cells, as cancerous cells, and human umbilical vein endothelial cells (HUVEC), as healthy cells, employing the diphenyltetrazolium bromide (MTT) assay for 72?h.

Results and discussion: The particle size, zeta potential, and EE% of the liposomes were 165?±?12.3 and 178?±?15.4?nm, ?39.6?±?1.3, and ?41.2?±?2.1?mV as well as 76.9?±?2.6 and 76.9?±?2.6% in conventional and fusogenic pH-sensitive liposomes, respectively. Physicochemical stability results indicated that both liposome types were relatively stable at 4?°C than 25?°C. In vitro antiproliferative evaluation showed that fusogenic pH-sensitive liposomes had better antiproliferative effects on MCF-7 cells compared to the conventional liposomes. Conversely, fusogenic pH-sensitive liposomes had less cytotoxicity on HUVEC cell line.     

聚乙二醇POPA磷脂衍生物构建的酶敏脂质体

以磷酰胺键将聚乙二醇高分子MePEG2000-NH₂与磷脂POPA连接在一起, 合成聚乙二醇磷脂衍生物, 以聚乙二醇磷脂衍生物为主要膜材构建酸敏脂质体。采用荧光分析法系统研究了聚乙二醇磷脂衍生物脂质体在酸性条件下对荧光染料的释药特性。以聚乙二醇磷脂衍生物构建的酸敏脂质体,在pH 6.5～7.5时稳定,其稳定性与制备脂质体的磷脂种类及胆固醇含量密切相关,在pH 5.0时发生显著的荧光泄漏,泄漏率与环境酸性的强度及处于酸性的时间呈正相关。聚乙二醇磷脂衍生物构建的脂质体具有开发成酸敏释药脂质体的前景。
     

pH-sensitive, serum-stable and long-circulating liposomes as a new drug delivery system

The lack of stability in blood and the short blood circulation time of pH-sensitive liposomes are major drawbacks for their application in-vivo. To develop pH-sensitive, serum-stable and long-circulating liposomes as drug delivery systems, the impact of polyethylene glycol-derived phosphatidylethanolamine (DSPE-PEG) on the properties of pH-sensitive liposomes was investigated. pH-sensitive liposomes were prepared with dioleoylphosphatidylethanolamine (DOPE) and oleic acid (DOPE/oleic acid liposome) or DOPE and 1,2-dipalmitoylsuccinylglycerol (DOPE/DPSG liposome). The inclusion of DSPE-PEG enhanced the serum stability of both DOPE/oleic acid and DOPE/DPSG liposomes, but also shifted the pH-response curve of pH-sensitive liposomes to more acidic regions and reduced the maximum leakage percentage. The impact of DSPE-PEG, however, was much lower in the DOPE/DPSG liposomes than in the DOPE/oleic acid liposomes. In tumour tissue homogenates, where the pH is lower than normal healthy tissues, the pH-sensitive DOPE/DPSG liposomes released the entrapped markers rapidly, in comparison with pH-insensitive dipalmitoylphosphatidylcholine/cholesterol/DSPE-PEG liposomes. Moreover, the release rate was not affected by the content of DSPE-PEG. The blood circulation time of methotrexate incorporated in DOPE/UDPSG liposomes was significantly prolonged with increasing content of DSPE-PEG. Taken together, the liposomes composed of DOPE, DPSG and DSPE-PEG (up to 5%) were pH sensitive, plasma stable and had a long circulation time in the blood. The complete destabilization of the liposomes at tumour tissues suggests that the liposomes might be useful for the targeted delivery of drugs such as anticancer agents.     

雷替曲塞pH敏感脂质体的制备研究

目的 制备雷替曲塞pH敏感脂质体，并优化其处方和制备工艺，对所优化的pH敏感脂质体进行评价。方法 采用单因素考察和正交设计试验优化处方，考察最优处方制得的雷替曲塞pH敏感脂质体的粒径、Zeta电位、外观形态、包封率、体外释放度和细胞毒性作用。结果 按最优处方制备的雷替曲塞pH敏感脂质体，平均粒径为(227.0±21.4)nm，PDI为0.223±0.061，Zeta电位为(-44.2±3.6)mv，包封率为(58.3±2.1)%；体外释放结果表明载药脂质体在pH5.0和pH6.0的释放介质中释放快速，在pH7.4的释放介质中释放缓慢，pH敏感作用明显；细胞毒性试验证实脂质体载体本身安全性较高，而载药脂质体制剂有较高的细胞毒性。结论 本研究表明，优化得到的雷替曲塞pH敏感脂质体具有简便的制备方法、适宜的理化性质和较高的安全性，具有广阔的临床应用前景。     

Uptake of liposomally entrapped fluorescent antisense oligonucleotides in NG108-15 cells: conventional versus pH-sensitive

Antisense oligodeoxynucleotides (asODN) are novel therapeutic agents designed to alter RNA metabolism, ultimately resulting in decreased production of disease-associated gene products. To investigate internalisation of liposomally delivered asODN in NG108-15 cells, a hybrid cell line of mouse neuroblastoma and rat glioma, and assure that uptake of marker corresponds to that of antisense, we compared the cellular uptake of fluorescently labelled marker (fluorescein isothiocyanate (FITC)-dextran) and antisense oligonucleotide (FITC-asODN), entrapped either in conventional soy phosphatidylcholine (SPC) liposomes or pH-sensitive liposomes (composed of dioleoylphosphatidylethanolamine and cholesteryl hemisuccinate in a molar ratio of 3 : 2). Both SPC and pH-sensitive liposomes were prepared by a modified freeze-thawing method. Entrapment efficiencies (about 20% of the original material) did not depend on the liposome compositions and fluorescent material used. Fluorescence activated cell sorting (FACS) analysis was used to quantify the association of fluorescent material with the NG108-15 cells, whereas confocal microscopy gave insight on the location of cell associated-fluorescence. Conventional liposomes failed to deliver fluorescent material into the cells, but in contrast, pH-sensitive liposomes significantly improved the uptake of both FITC-dextran and FITC-asODN, with the uptake of liposomal FITC-dextran being greater than the uptake of liposomal FITC-asODN. These results suggest that pH-sensitive liposomes can be applied as a carrier system in the delivery of genetic material into the cells.     

Delivery of Plasmid DNA into Mammalian Cell Lines Using pH-Sensitive Liposomes: Comparison with Cationic Liposomes

We compare the transfection efficiency of plasmid DNA encoding either luciferase or (-galactosidase encapsulated in pH-sensitive liposomes or non-pH-sensitive liposomes or DNA complexed with cationic liposomes composed of dioleoyloxypropyl-trimethylammonium:dioleoylphosphatidyl-ethanolamine (1:1, w/w) (Lipofectin) and delivered into various mammalian cell lines. Cationic liposomes mediate the highest transient transfection level in all cell-lines examined. pH-sensitive liposomes, composed of cholestryl hemisuccinate and dioleoylphosphatidylethanolamine at a 2:1 molar ratio, mediate gene transfer with efficiencies that are 1 to 30% of that obtained with cationic liposomes, while non-pH-sensitive liposome compositions do not induce any detectable transfection. Cationic liposomes mediate a more rapid uptake of plasmid DNA, to about an eightfold greater level than that obtained with pH-sensitive liposomes. The higher uptake of DNA mediated by Lipofectin accounts for part of its high transfection efficiency. Treatment of cells with chloroquine, ammonium chloride, or monensin decreases (threefold) transfection using pH-sensitive liposomes and either has no effect on or enhances cationic liposome-mediated transfection. Therefore plasma membrane fusion is not the only mechanism available to cationic liposomes; in certain cell lines DNA delivery via endocytosis is a possible parallel pathway and could augment the superior transfection efficiency observed with cationic liposomes.     

聚(2-乙基丙烯酸)脂质体的制体及其热敏性研究

采用插入法以脂肪酰胺修饰的聚(2-乙基丙烯酸)衍生物构建热敏递药的高分子脂质体。用荧光分析法，借助荧光分光光度仪和粒径仪系统地研究了高分子脂质体的热敏特性。结果发现，采用脂肪胺修饰的聚(2-乙基丙烯酸)制备的脂质体具有明显的热敏释药特性，其释药特性与插入的高分子结构有关，还与制备脂质体的磷脂组成有关，同时采用聚(2-乙基丙烯酸)制备的脂质体还具有显著的酸敏释药特性。以聚(2-乙基丙烯酸)为热敏诱导介质制备的脂质体在体外实验中呈现出良好的热敏释药特性，且制剂制备方法简便、可靠。     

Nuclear delivery of a therapeutic peptide by long circulating pH-sensitive liposomes: benefits over classical vesicles

The purpose of this study is to propose a suitable vector combining increased circulation lifetime and intracellular delivery capacities for a therapeutic peptide. Long circulating classical liposomes [SPC:CHOL:PEG-750-DSPE (47:47:6 molar% ratio)] or pH-sensitive stealth liposomes [DOPE:CHEMS:CHOL:PEG₇₅₀-DSPE (43:21:30:6 molar% ratio)] were used to deliver a therapeutic peptide to its nuclear site of action. The benefit of using stealth pH-sensitive liposomes was investigated and formulations were compared to classical liposomes in terms of size, shape, charge, encapsulation efficiency, stability and, most importantly, in terms of cellular uptake. Confocal microscopy and flow cytometry were used to evaluate the intracellular fate of liposomes themselves and of their hydrophilic encapsulated material. Cellular uptake of peptide-loaded liposomes was also investigated in three cell lines: Hs578t human epithelial cells from breast carcinoma, MDA-MB-231 human breast carcinoma cells and WI-26 human diploid lung fibroblast cells. The difference between formulations in terms of peptide delivery from the endosome to the cytoplasm and even to the nucleus was investigated as a function of time. Characterization studies showed that both formulations possess acceptable size, shape and encapsulation efficiency but cellular uptake studies showed the important benefit of the pH-sensitive formulation over the classical one, in spite of liposome PEGylation. Indeed, stealth pH-sensitive liposomes were able to deliver hydrophilic materials strongly to the cytoplasm. Most importantly, when encapsulated in pH-sensitive stealth liposomes, the peptide was able to reach the nucleus of tumorigenic and non tumorigenic breast cancer cells.     

海参皂苷nobiliside A脂质体及其溶血行为的初步研究

本文旨在制备海参皂苷nobiliside A(Nob A)脂质体，建立脂质体中Nob A的含量和包封率的测定方法，考察该脂质体的体内外溶血行为。以高效液相色谱-蒸发光散射检测法(HPLC-ELSD)测定脂质体中Nob A含量，微柱离心法测定其包封率。以溶血率和包封率、粒径为指标，单因素考察了制备方法、磷脂用量、胆固醇用量和药脂比。根据单因素的考察结果，以薄膜超声法制备3批脂质体，与同浓度的药物溶液进行体内外溶血行为的比较。结果显示：用于含量测定和包封率测定的HPLC-ELSD和微柱离心法准确、快速，采用薄膜超声法制备的脂质体形态圆整，粒径较为均匀。当磷脂与胆固醇比例为2∶1，药脂比为1∶40时，Nob A脂质体的平均包封率为95.7%，平均粒径为87.6 nm。Nob A以脂质体作为给药载体，其体内外溶血行为大大降低，有望成为静脉注射用脂质体。     

pH-sensitive liposomes--principle and application in cancer therapy

The purpose of this review is to provide an insight into the different aspects of pH-sensitive liposomes. The review consists of 6 parts: the first introduces different types of medications made in liposomal drug delivery to overcome several drawbacks; the second elaborates the development of pH-sensitive liposomes; the third explains diverse mechanisms associated with the endocytosis and the cytosolic delivery of the drugs through pH-sensitive liposomes; the fourth describes the role and importance of pH-sensitive lipid dioleoylphosphatidylethanolamine (DOPE) and research carried on it; the fifth explains successful strategies used so far using the mechanism of pH sensitivity for fusogenic activity; the final part is a compilation of research that has played a significant role in emphasizing the success of pH-sensitive liposomes as an efficient drug delivery system in the treatment of malignant tumours. pH-Sensitive liposomes have been extensively studied in recent years as an amicable alternative to conventional liposomes in effectively targeting and accumulating anti-cancer drugs in tumours. This research suggests that pH-sensitive liposomes are more efficient in delivering anti-cancer drugs than conventional and long-circulating liposomes due to their fusogenic property. Research focused on the clinical and therapeutic side of pH-sensitive liposomes would enable their commercial utility in cancer treatment.