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癌症,是现今威胁人类健康的一大杀手,目前常规的治疗手段之一是予以大剂量的化疗药物进行治疗。但大多数抗癌药物因具有广泛而强烈的细胞毒性,在杀伤癌细胞的同时也无选择性的杀伤了正常人体细胞,使得患者在接受治疗的同时承受了较大的痛苦,降低了癌症患者的生存质量。因而在药剂学研究中,须以提高药效、增强靶向性及降低毒副作用等为目标,合理地选择和开发抗癌药物给药系统。自脂质体作为新型药物传递技术引入癌症治疗以来,因其独特的理化性质和递药机理,高效低毒地递送抗癌药物至病灶,因而成为现今抗癌药物给药系统研究中的热点。本文结合国内外的相关资料和最新报道,综述了脂质体抗癌药物的递药优势、研究进展与存在的问题,并在分析了产业化现状的基础上,对这一新型给药系统在抗癌药物递送领域中的发展做一展望。 相似文献
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载药脂质体的研究与应用进展 总被引:2,自引:1,他引:1
载药脂质体给药系统已成为国内外的研究热点。传统脂质体经修饰和改良后表现出良好的生物相容性,缓释性和靶向性。新型脂质体在经皮给药,肺部给药,脑部靶向治疗,基因治疗等方面的应用研究结果显示,集药物缓释、靶向于一体的具有良好生物安全性的脂质体给药系统具有很大发展潜力。本文综述了该领域中的最新研究进展。 相似文献
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环境敏感型聚合物纳米抗肿瘤药物传递系统能够响应外界环境的微小刺激,引起自身结构的变化,释放出药物,在肿瘤治疗方面具长效低毒、可控及高载药量等优势,已被广泛应用于生物医学领域.本文介绍了聚合物环境响应型纳米药物传输系统的发展近况,并从pH 值敏感型、温度敏感型、氧化还原敏感型、酶敏感型以及其他敏感型给药系统角度,阐述了环境敏感型药物传输系统在抗肿瘤领域的研究现状及未来展望. 相似文献
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肽-半乳糖苷-阿霉素脂质体在肝细胞癌靶向治疗中作用 总被引:1,自引:0,他引:1
目的:获得一种对肝细胞癌具有特异靶向的药物传递系统载体-聚乙二醇修饰的MMP-2底物肽-半乳糖苷-阿霉素脂质体(PEG-PD-Gal-ADM-liposomes),为临床肝癌的靶向治疗提供实验依据.方法:将二棕榈磷脂酰基乙醇胺(DOPE)与聚乙二醇化的MMP-2底物肽连接(Gly-Pro-Lcu-Gly-Ile-Ala-Gly-Gin),即获得可被MMP-2切割的聚乙二醇-底物肽-DOPE,再与半乳糖苷脂质体(Gal-liposomes)、阿霉素(ADM)耦合,最终获得聚乙二醇修饰的MMP-2底物肽-半乳糖苷-阿霉素脂质体(PEG-PD-Gal-ADM-liposomes),体外观察其对人肝癌细胞株HepG2的效应.结果:MTT法显示PEG-PD-Gal-ADM脂质体对人肝癌细胞株HepG2的毒性作用弱于半乳糖苷-阿霉素脂质体(PEG-Gai-ADM)的作用(P<0.05),对人结肠癌细胞株SW480的毒性作用二者之间无显著差异;用MMP-2(5μg/ml)预处理后,PEG-PD-GaI-ADM脂质体对人肝癌细胞株HepG2的毒性作用与Gal-ADM脂质体的作用相近,无显著差异(P>0.05);加入过量的半乳糖封闭半乳糖受体后,二者的毒性作用均有下降,无显著性差异(P>0.05).结论:PEG-PD-Gal-ADM脂质体是一种新型的HCC特异靶向治疗药物传递载体,可能是将来HCC靶向治疗的重要手段. 相似文献
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肝细胞靶向pH敏脂质体介导的硫代反义寡核苷酸对HCV5‘NCR基因表达的抑制作用 总被引:2,自引:0,他引:2
反义寡核苷酸是一种阴离子大分子物质,细胞生物利用度较低且易被细胞溶酶体酶降解,为了增强反义药物在病变靶细胞内的有效浓度,根据受体介导的内吞作用原理,针对肝细胞专一性表达的去唾液酸糖蛋白受体,设计及制备了一种肝靶向性脂质体,这种脂质体同时具有pH敏性.采用竟争抑制实验及鸡红细胞溶血实验分析了其肝细胞靶向性及pH敏性;应用肝靶向pH敏脂质体作为药物运载工具,介导反义寡核苷酸HCV363作用于转基因细胞HepG2.9706细胞,通过荧光素酶活性检测,观察了硫代反义寡核苷酸对HCV 5′NCR调控功能的抑制活性.结果显示,不同浓度半乳糖溶液对5%18-gal脂质体有一定的抑制作用,浓度超过20mmol/L时,达到饱和,最大抑制率为38%;溶血实验显示脂质体与红细胞膜融合作用有显著的pH值依赖性,pH<6时,血红素释放量明显增加;肝靶向pH敏性脂质体介导的HCV363对HepG2.9706细胞中HCV 5′NCR调控基因具有显著的剂量依赖性抑制作用,浓度为1.0umol/L时,抑制率达86%.综上,所制备的脂质体具有一定的肝细胞靶向性及显著的pH敏感性,这种脂质体能够增强HCV特异性硫代反义寡核苷酸的细胞内抑制活性,这为针对肝炎病毒的反义寡核苷酸的体内活性评价提供了有用的转运体系. 相似文献
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This article evaluates the influence of five parameters on liposome partitioning in aqueous two-phase systems (ATPSs), composed of poly(ethyleneglycol) (PEG)/dextran (Dx), using the factorial experimental design together with a multiple regression. Mathematical models to quantify the influence of these parameters, individually and/or jointly, on liposome partitioning in ATPS were developed. The models were statistically tested and verified by experimentation. This approach was then used to define the conditions for the preferential accumulation of liposomes in the top PEG-rich phase. The models predicted a significant effect of liposome surface charge, PEG molecular weight, phase-forming polymer concentration, and phosphate ion concentration on the partition behavior of liposomes. For negatively charged liposomes, it was found that the smaller the molecular weight of PEG and polymer concentration and the larger the phosphate ion concentration, the greater the partition coefficient of the liposomes. No significant effect of pH, at the range of 6-8, on liposome partitioning was noted. This approach has led to the development of an optimal two-phase system where 90% of negatively charged liposomes accumulated in the PEG phase. In addition to the general scientific value of this research, it has a technological importance as ATPSs may be useful for removing the unentrapped drug from liposomes during their preparation for pharmaceutical applications. (c) 1996 John Wiley & Sons, Inc. 相似文献
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Jin-Soo Chang Myeong-Jun Choi Tae-Yeon Kim Gyu-Jin Woo Soo-il Chung Hong-Seok Cheong 《Biotechnology and Bioprocess Engineering》1999,4(1):66-71
One of the practical limitations with the use of liposomes for delivery of the pharmaceutical substances such as antigens
is that liposomes are relatively unstable in storage. In order to extend the stability of liposome in storage without affecting
their functional activity, solution-type liposomes were dehydrated to form a structurally intact dry liposomes. Comparative
immunological evaluation was carried out for both dry and solution-type liposomes containing gag-V3 chimera, consequently
it was found that dry liposomes elicited both humoral and cellular response as efficiently as solution-type liposomes did
against the same gag-V3 antigen. Especially, long-term stability of the liposomes was remarkably enhanced by the dehydration
made to liposomes without a significant change in its ability to elicit immune responsein vivo. These results indicate that dry pH-sensitive liposome may become an effective delivery and adjuvant system for general vaccine
development. 相似文献
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Biophysical aspects of using liposomes as delivery vehicles 总被引:5,自引:0,他引:5
Ulrich AS 《Bioscience reports》2002,22(2):129-150
Liposomes are used as biocompatible carriers of drugs, peptides, proteins, plasmic DNA, antisense oligonucleotides or ribozymes, for pharmaceutical, cosmetic, and biochemical purposes. The enormous versatility in particle size and in the physical parameters of the lipids affords an attractive potential for constructing tailor-made vehicles for a wide range of applications. Some of the recent literature will be reviewed here and presented from a biophysical point of view, thus providing a background for the more specialized articles in this special issue on liposome technology. Different properties (size, colloidal behavior, phase transitions, and polymorphism) of diverse lipid formulations (liposomes, lipoplexes, cubic phases, emulsions, and solid lipid nanoparticles) for distinct applications (parenteral, transdermal, pulmonary, and oral administration) will be rationalized in terms of common structural, thermodynamic and kinetic parameters of the lipids. This general biophysical basis helps to understand pharmaceutically relevant aspects such as liposome stability during storage and towards serum, the biodistribution and specific targeting of cargo, and how to trigger drug release and membrane fusion. Methods for the preparation and characterization of liposomal formulations in vitro will be outlined, too. 相似文献
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A novel scalable liposome preparation technique for pharmaceutical application is presented. Previous experiments have shown that the concept of continuous crossflow injection is a promising approach. For the characterization of the process, we focus on the influencing parameters like the lipid concentration, the injection hole diameter, the injection pressure, the buffer flow rate, and system performance. These experiments demonstrate that the injection hole diameter and the system performance do not influence the vesicle forming process and that a minimum of buffer flow rate is required to affect batch homogeneity. In contrast, strongly influencing parameters are lipid concentration in combination with increasing injection pressures. After exceeding the upper pressure limit of the linear range, where injection velocities remain constant, the vesicle batches are narrowly distributed, also when injecting higher lipid concentrations. Reproducibility and scalability data show similar results with respect to vesicle size and size distribution and demonstrate the stability and robustness of the novel continuous liposome preparation technique. 相似文献
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Elisabet Boija 《生物化学与生物物理学报:生物膜》2006,1758(5):620-626
In order to elucidate the modes of interaction between lignin precursors and membranes, we have studied the influence of temperature, lipid composition and buffer composition on the partitioning of monolignol and dilignol model substances into phospholipid bilayers. The partitioning was determined by immobilized liposome chromatography, which is an established method for studies of pharmaceutical drugs but a new approach in studies of lignin synthesis. The temperature dependence of the retention and the effect of a high ammonium sulfate concentration in the mobile phase demonstrated that the interaction involved both hydrophobic effects and polar interactions. There was also a good correlation between the partitioning and the estimated hydrophobicity, in terms of octanol/water partitioning. The partitioning behavior of the model substances suggests that passive diffusion over the cell membrane is a possible transport route for lignin precursors. This conclusion is strengthened by comparison of the present results with the partitioning of pharmaceutical drugs that are known to pass cell membranes by diffusion. 相似文献
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《Journal of liposome research》2013,23(3):259-270
ABSTRACTA novel scalable liposome preparation technique for pharmaceutical application is presented. Previous experiments have shown that the concept of continuous crossflow injection is a promising approach. For the characterization of the process, we focus on the influencing parameters like the lipid concentration, the injection hole diameter, the injection pressure, the buffer flow rate, and system performance. These experiments demonstrate that the injection hole diameter and the system performance do not influence the vesicle forming process and that a minimum of buffer flow rate is required to affect batch homogeneity. In contrast, strongly influencing parameters are lipid concentration in combination with increasing injection pressures. After exceeding the upper pressure limit of the linear range, where injection velocities remain constant, the vesicle batches are narrowly distributed, also when injecting higher lipid concentrations. Reproducibility and scalability data show similar results with respect to vesicle size and size distribution and demonstrate the stability and robustness of the novel continuous liposome preparation technique. 相似文献
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In order to elucidate the modes of interaction between lignin precursors and membranes, we have studied the influence of temperature, lipid composition and buffer composition on the partitioning of monolignol and dilignol model substances into phospholipid bilayers. The partitioning was determined by immobilized liposome chromatography, which is an established method for studies of pharmaceutical drugs but a new approach in studies of lignin synthesis. The temperature dependence of the retention and the effect of a high ammonium sulfate concentration in the mobile phase demonstrated that the interaction involved both hydrophobic effects and polar interactions. There was also a good correlation between the partitioning and the estimated hydrophobicity, in terms of octanol/water partitioning. The partitioning behavior of the model substances suggests that passive diffusion over the cell membrane is a possible transport route for lignin precursors. This conclusion is strengthened by comparison of the present results with the partitioning of pharmaceutical drugs that are known to pass cell membranes by diffusion. 相似文献
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Magdalini Rovoli Ioannis Pappas Stavros Lalas Olga Gortzi 《Journal of liposome research》2019,29(2):142-152
Vitamin A (VA) is an essential nutrient needed in small amounts by humans and supports a wide range of biological actions. Retinol, the most common and most biologically active form of VA has also been found to inhibit peroxidation processes in membranes and it has been widely used as an ingredient with pharmaceutical and nutritional applications. VA is a lipophilic molecule, sensitive to air, oxidizing agents, ultraviolet light and low pH levels. For these reasons, it is necessary for VA to be protected against oxidation. Another disadvantage in the application of VA is its low solubility in aqueous media. Both issues (sensitivity and solubility) can be solved by employing encapsulation techniques. Liposomes can efficiently encapsulate lipid-soluble materials, such as VA. The encapsulated materials are protected from environmental and chemical changes. A new liposome/β-lactoglobulin formulation has been developed as a stable delivery system for VA. The aim of this study was the encapsulation of VA into β-lactoglobulin–liposome complexes, recently developed in our laboratory. The in vivo bioavailability characterization of VA was tested after administration in laboratory animals (mice). In this report, we demonstrate that VA could be efficiently entrapped and delivered in a phospholipid–sterol–protein membrane resembling system, a newly synthesized promising carrier. Based on this finding, the phospholipid–sterol–protein membrane resembling system may be one of the promising approaches to enhance VA absorption and to overcome the formulation difficulties associated with lipophilic means. The carrier system described here has huge potential in food fortification applications to treat VA deficiency. 相似文献
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Gene delivery into human hepatocytes remains a critical issue for the development of liver-directed gene therapy. Gene delivery based on non-viral vectors is an attractive approach relative to viral vectors. In this report, novel delivery system of preS/liposome/DNA virus-like particle (VLP) was developed for gene transfection into hepatocytes in vivo and in vitro. Plasmid pCMVbeta, expressing beta-galactosidase, was encapsulated with cationic liposome, and then the histidine-tagged preS domain of hepatitis B virus was coated on the surface of liposome/DNA to form preS/liposome/ DNA VLP. Transfection efficiencies of preS/liposome/DNA, liposome/DNA, naked DNA and preS were analyzed using several different human cell lines. The highest transfection efficiency was found using preS/liposome/DNA VLP as the transfection reagent in human hepatocyte (HH) cell line. Results show that preS domain of hepatitis B virus coated on liposome/DNA can be used for highly efficient gene transfection into human hepatocytes. Moreover, the target characteristic of preS/liposome/DNA was analyzed in vivo. After preS/liposome/DNA VLP was injected into immunocompromised (Nude) mice via the tail vein, most of beta-galactosidase was expressed in the liver; however, no significant target expression was found with the injection of liposome/ DNA or naked DNA. Our results show that preS/liposome/DNA VLP can be used as a novel liver-specific gene delivery system. 相似文献