pH敏脂质体对反义寡核苷酸抗流感病毒活性的影响

为了研究具有临床应用前景的 Ａ Ｓ Ｏ Ｄ Ｎ 脂质体转运系统,以临床药用大豆磷脂为主要原料制备了ｐ Ｈ 敏脂质体,并测定了脂质体体外转染活性、ｐ Ｈ 敏特性、细胞毒性和对 Ａ Ｓ Ｏ Ｄ Ｎ 抗流感病毒活性的影响 结果发现,批号为 ９８０５１９０３,９８０５１１０２ 和 ９８０５１２０２ 的脂质体具有较高转染活性,但只有ｌｉｐｏｆｅｃｔｉｎ 转染活性的 １／５０～１／１００当质粒／脂质体（ Ｗ ／ Ｗ ）为 １∶４～１∶８,转染时间为 ３～５ ｈ,质粒量为 ０５ μｇ,转染后 ２４～４８ ｈ 内检测时转染活性最高 脂质体 ９８０５１２０２ 表现明显 ｐ Ｈ值依赖溶解红细胞膜特性,而脂质体 ９８０５１１０２ 和 ９８０５１９０３ 的 ｐ Ｈ 敏特性不明显 脂质体细胞毒性明显降低,如 ９８０５１９０３、９８０５１１０２ 和 ９８０５１２０２ 的毒性分别是 ｌｉｐｏｆｅｃｔｉｎ 毒性的 １／１６、１／８ 和 １／４ｐ Ｈ 敏脂质体 ９８０５１２０２ 具有促进 Ａ Ｓ Ｏ Ｄ Ｎ 抗流感病毒作用,当 Ａ Ｓ Ｏ Ｄ Ｎ 浓度为 ０２ μｍ ｏｌ／ Ｌ 时,ｐ Ｈ 敏脂质体 ９８０５１２０２ 使其抗病毒活性提高 ５ 倍,但 Ａ Ｓ Ｏ Ｄ Ｎ 浓度较高时ｐ Ｈ 敏脂质体对 Ａ Ｓ Ｏ Ｄ Ｎ抗     

Use of a quaternary ammonium detergent in liposome mediated DNA transfection of mouse L-cells

Sonicated liposomes composed of dioleoylphosphatidylethanolamine (DOPE) and a quaternary ammonium detergent (dodecyl-, tetradecyl-, or cetyl-trimethylammonium bromide) mediates functional transfer of pSV2 CAT plasmid DNA to mouse L929 fibroblasts. Successful transfection was determined by assaying for chloramphenicol acetyltransferase activity in cell lysates collected 40 h after exposure to the lipid-DNA complexes. Liposomes prepared with the quaternary ammonium detergents were less toxic than the free detergents at the same concentrations and were more efficient in their delivery of the plasmid DNA to the cells. Analysis of the three detergents in combination with the lipid showed that cetyltrimethylammonium bromide was least toxic to the cells. This detergent, at a minimal concentration of 20 mol% in DOPE, allowed for stable liposome preparations and efficient transfection. Optimal efficiency of transfection occurred with 30 micrograms of DNA. Further increases in the DNA concentration caused a decrease in the transfection efficiency, perhaps due to charge repulsions between the liposomes now saturated with negatively charged DNA and the negatively charged cell surface. The transfection activity of the liposome was limited by its cytotoxicity at high liposome concentrations. These results are compared with that of the Lipofectin, another positively charged liposome preparation which is commercially available. Although the overall transfection activity of the liposome containing the quaternary ammonium detergent is somewhat lower than that of the Lipofectin, it may serve as an inexpensive and convenient alternative.     

Effectiveness of liposomes to transfect livestock fibroblasts

The development of an efficient transfection system in livestock cells is an important step towards investigating gene transfer and the functioning and production of transgenic animals. Important factors involved in cationic liposome mediated gene transfer were evaluated through in vitro transfection of bovine, caprine and ovine fibroblast cells. Transfection of plasmid DNA complexes of different commercially available liposomes (Lipofectamine, Lipofectin, Cellfectin and DMRIE-C; Gibco-BRL, USA) was evaluated utilizing the following parameters: DNA/liposome ratio, cell density, DNA conformation, and the effect of transfection time on the efficiency of bovine fibroblasts to express a reporter gene. The effects and concentrations of liposomes were also evaluated in caprine and ovine fibroblasts. Lipofectamine alone and Lipofectamine with Plus reagent induced high-frequency expression of beta-galactosidase and neo genes in all cells evaluated (47 and 88.3%, respectively). Regarding phenotype, chromosomal stability was similar in transfected and non-transfected cells. The parameters set in this study will establish a foundation for utilizing transfected fibroblast cells to generate transgenic animals through nuclear transfer technology and gene function studies.     

Synthesis and optimization of cholesterol-based diquaternary ammonium Gemini Surfactant (Chol-GS) as a new gene delivery vector

Amongst a number of potential nonviral vectors, cationic liposomes have been actively researched, with both gemini surfactants and bola amphiphiles reported as being in possession of good structures in terms of cell viability and in vitro transfection. In this study, a cholesterol-based diquaternary ammonium gemini surfactant (Chol-GS) was synthesized and assessed as a novel nonviral gene vector. Chol-GS was synthesized from cholesterol by way of four reaction steps. The optimal efficiency was found to be at a weight ratio of 1:4 of lipid:DOPE (1,2-dioleoyl-L-alpha- glycero-3-phosphatidylethanolamine), and at a ratio of between 10:1~15:1 of liposome:DNA. The transfection efficiency was compared with commercial liposomes and with Lipofectamine, 1,2-dimyristyloxypropyl-3-dimethylhydroxyethylammonium bromide (DMRIE-C), and N-[1-(2,3-dioleoyloxy)propyl]- N,N,N-trimethylammonium chloride (DOTAP). The results indicate that the efficiency of Chol-GS is greater than that of all the tested commercial liposomes in COS7 and Huh7 cells, and higher than DOTAP and Lipofectamine in A549 cells. Confirmation of these findings was observed through the use of green fluorescent protein expression. Chol-GS exhibited a moderate level of cytotoxicity, at optimum concentrations for efficient transfection, indicating cell viability. Hence, the newly synthesized Chol-GS liposome has the potential of being an excellent nonviral vector for gene delivery.     

Heparin can improve the viability of transfected cystic fibrosis cell lines in vitro

Cationic liposomes are widely used as gene transfer agents in in vitro and in vivo studies of cystic fibrosis. In this study we report comparative results of cationic mediated transfection in several cell lines. We have tested epithelial cell lines expressing the wild-type cystic fibrosis transmembrane protein CFTR (bronchial epithelium-16HBE14o-, submucosal gland-Calu3) and their cystic fibrosis counterparts (CFBE41o-, CFSMEo-), as well as baby hamster kidney fibroblast cell lines (BHK) heterologously expressing human CFTR. The cells were transfected with a green fluorescent protein plasmid complexed with commercial cationic liposome (Geneporter2, GP) and 25 kDa polyethylenimine (PEI). At the end of the incubation (2 hours), low molecular weight heparin was added in order to reduce the toxicity of the lipoplexes. Transfection efficiency and cell viability were measured by flow cytometry. Determination of fatty acid composition of cellular phospholipids was performed by capillary gas chromatography. The short incubation time was sufficient to obtain satisfactory transfection in all cell lines studied. Cells treated with PEI-complexes had lower transfection efficiency and viability compared to GP in all tested cell lines. DeltaF508 CFTR carrying airway epithelial cells were easier to transfect but had lower viability compared to their healthy counterparts. This was, however not the case for the BHK cells. The fatty acid analysis showed characteristic polyunsaturated fatty acid patterns, which correlated with the viability of the transfected cells. Low molecular mass heparin added at the end of the lipoplex incubation time could help to maintain the viability of the cells, without interfering with the transfection efficiency.     

Advanced transfection with Lipofectamine 2000 reagent: primary neurons, siRNA, and high-throughput applications

Lipofectamine 2000 is a cationic liposome based reagent that provides high transfection efficiency and high levels of transgene expression in a range of mammalian cell types in vitro using a simple protocol. Optimum transfection efficiency and subsequent cell viability depend on a number of experimental variables such as cell density, liposome and DNA concentrations, liposome-DNA complexing time, and the presence or absence of media components such as antibiotics and serum. The importance of these factors in Lipofectamine 2000 mediated transfection will be discussed together with some specific applications: transfection of primary neurons, high throughput transfection, and delivery of small interfering RNAs.     

Sequence dependence of C5-propynyl-dU,dC-phosphorothioate oligonucleotide inhibition of the human IGF-I receptor: mRNA,protein, and cell growth

Human keratinocytes are highly responsive to mitogenic and antiapoptotic signaling by the insulin-like growth factor-I receptor (IGF-IR). IGF-IR hyperstimulation is a feature of hyperplastic skin conditions, making the IGF-IR an appealing target for antisense therapeutic intervention. In this study, we used a C5-propynyl-dU,dC-phosphorothioate oligo-2'-deoxyribonucleotide antisense 15-mer to the human IGF-IR mRNA, along with liposome transfection, to inhibit IGF-IR activity in a human keratinocyte cell line and demonstrated potent inhibition of cell growth despite the presence of serum. To investigate the sequence specificity of these effects and to establish the concentration range over which a purely antisense effect could be demonstrated, we introduced 1, 2, 4, 8, and 15 base mismatches into the oligonucleotide and analyzed changes in inhibitory efficacy. In the 10-30 nM concentration range, the introduction of 1 and 2 mismatches into the middle of the 15-mer only modestly affected inhibitory efficacy, whereas >4 mismatches profoundly reduced mRNA, protein, and growth-inhibitory effects. From these results, we conclude that (1) sequence-specific antisense inhibition of IGF-IR activity in keratinocytes is achievable, (2) potent anti-IGF-IR antisense inhibition can be achieved in vitro at concentrations as low as 10 nM, and (3) a sequence-dependent mechanism is likely to underpin the observed in vivo therapeutic effects (Wraight et al. Nat. Biotechnol. 2000;18:521) of these antisense oligonucleotides (AS-ODN) in cutaneous hyperplastic disorders, such as psoriasis.     

Biotin and glucose dual-targeting,ligand-modified liposomes promote breast tumor-specific drug delivery

Breast cancer is the second leading cause of cancer-related deaths in women. Ligand-modified liposomes are used for breast tumor-specific drug delivery to improve the efficacy and reduce the side effects of chemotherapy; however, only a few liposomes with high targeting efficiency have been developed because the mono-targeting, ligand-modified liposomes are generally unable to deliver an adequate therapeutic dose. In this study, we designed biotin-glucose branched ligand-modified, dual-targeting liposomes (Bio-Glu-Lip) and evaluated their potential as a targeted chemotherapy delivery system in vitro and in vivo. When compared with the non-targeting liposome (Lip), Bio-Lip, and Glu-Lip, Bio-Glu-Lip had the highest cell uptake in 4T1 cells (3.00-fold, 1.60-fold, and 1.95-fold higher, respectively) and in MCF-7 cells (2.63-fold, 1.63-fold, and 1.85-fold higher, respectively). The subsequent cytotoxicity and in vivo assays further supported the dual-targeting liposome is a promising drug delivery carrier for the treatment of breast cancer.     

Gene transfection efficiency of tracheal epithelial cells by DC-chol-DOPE/DNA complexes.

We evaluated the transfection efficiency of five different cationic liposome/plasmid DNA complexes, during the in vitro gene transfer into human epithelial tracheal cell lines. A dramatic correlation between the transfection efficiency and the charge ratio (positive charge of liposome to negative charge of DNA) has been found. DC-Chol-DOPE was found to be the most effective liposome formulation. Therefore, a morphological and structural analysis of DC-Chol-DOPE liposomes and DC-Chol-DOPE/DNA complexes, has been performed by transmission electron microscopy (TEM) and by confocal laser scanning microscopy (CLSM), respectively. The process of interaction between DC-Chol-DOPE/DNA complexes and human epithelial tracheal cells has been studied by CLSM. These results raise some issues for in vivo gene therapy.     

Structure Relationship of Cationic Lipids on Gene Transfection Mediated by Cationic Liposomes

The aim of this study was to investigate the transfection efficiency of cationic liposomes formulated with phosphatidylcholine (PC) and novel synthesized diethanolamine-based cationic lipids at a molar ratio of 5:1 in comparison with Lipofectamine™ 2000. Factors affecting transfection efficiency and cell viability, including the chemical structure of the cationic lipids, such as different amine head group (diamine and polyamine; and non-spermine and spermine) and acyl chain lengths (C14, C16, and C18) and the weight ratio of liposomes to DNA were evaluated on a human cervical carcinoma cell line (HeLa cells) using the pDNA encoding green fluorescent protein (pEGFP-C2). Characterizations of these lipoplexes in terms of size and charge measurement and agarose gel electrophoresis were performed. The results from this study revealed that almost no transfection was observed in the liposome formulations composed of cationic lipids with a non-spermine head group. In addition, the transfection efficiency of these cationic liposomes was in the following order: spermine-C14 > spermine-C16 > spermine-C18. The highest transfection efficiency was observed in the formulation of spermine-C14 liposomes at a weight ratio of 25; furthermore, this formulation was safe for use in vitro. In conclusion, cationic liposomes containing spermine head groups demonstrated promising potential as gene carriers.Key words: cationic lipids, cationic liposomes, gene transfection     

肝细胞靶向pH敏脂质体的制备及性质分析

为了制备具有肝细胞特异靶向性和pH敏感性的脂质体,设计并合成了四种带有半乳糖残基的导向分子,与具有pH敏感性的DC-chol/DOPE混合制备脂质体,通过质粒转染实验、受体竞争抑制实验和红细胞溶血等实验选出最佳转染活性的十八醇-半乳糖甙(18-gal)脂质体,并证明其具有肝细胞特异受体介导的靶向性和pH敏感性,且细胞毒性较小,可以作为一种潜在的肝细胞靶向转运系统得到进一步发展.     

A new cationic liposome for efficient gene delivery with serum into cultured human cells: a quantitative analysis using two independent fluorescent probes

Cationic liposomes are useful to transfer genes into eukaryotic cells in vitro and in vivo. However, liposomes with good transfection efficiency are often cytotoxic, and also require serum-free conditions for optimal activity. In this report, we describe a new formulation of cationic liposome containing DC-6-14, O,O'-ditetradecanoyl-N-(alpha-trimethylammonioacetyl)diethan olamine chloride, dioleoylphosphatidylethanolamine and cholesterol for gene delivery into cultured human cells. This liposome, dispersed in 5% serum-containing growth medium, efficiently delivered a plasmid DNA for GFP (green fluorescent protein) into more than 80% of the cultured human cell hybrids derived from HeLa cells and normal fibroblasts. Flow cytometric analysis revealed that the efficiency of the GFP gene expression was 40-50% in a tumor-suppressed cell hybrid, while it was greatly reduced in the tumorigenic counterpart. The enhanced GFP expression in tumor-suppressed cell hybrids was quantitatively well correlated with a prolonged presence of the plasmid DNA, which had been labeled with another fluorescent probe, ethidium monoazide, within the cells. These results suggest that a newly developed cationic liposome is useful for gene delivery in serum-containing medium into human cells and the stability of the plasmid DNA inside the cell is a crucial step in this liposome-mediated gene expression. The mechanisms by which cationic liposome mediates gene transfer into eukaryotic cells are also discussed.     

Factors mediating lipofection potency of a series of cationic phosphonolipids in human cell lines

A series of cationic liposomes known as cationic phosphonolipids (CPs) were evaluated as vehicles for in vitro gene transfer in K562 erythroleukemia cells and 5637 epithelial carcinoma cells. For each CP and target cell type examined, detailed analyses were performed to determine optimal transfection conditions (lipid/ DNA (+/-) charge ratio, amount of complexed episomal DNA, liposomal and lipoplex size, complexation medium and duration of complex-cell exposure time). Lipofection conditions were determined to be both cell- and lipid-type specific. Complexation medium critically affected transfection competence. The initial size of the liposome was not always predictive of lipofection potency. The lipid chemical composition had a strong impact upon lipofection efficiency; DOPE inclusion in the liposome formulations was found to affect the levels of transgene expression in a cell-dependent way. Notably, effective transgene expression was characterized by prominent plasmid nuclear incorporation. Human A gamma- and epsilon-globin transgene nuclear incorporation and expression in 5637 cells post GLB.391-mediated lipofection lends credence to its use as a vehicle of therapeutic transgene delivery.     

Nonviral vector-based gene transfection of primary human skeletal myoblasts

Low-level transgene efficiency is one of the main obstacles in ex vivo nonviral vector-mediated gene transfer into primary human skeletal myoblasts (hSkMs). We optimized the cholesterol:N-[1-(2, 3-dioleoyloxy)propyl]-N, N, N-trimethylammonium methylsulfate liposome (CD liposome) and 22-kDa polyethylenimine (PEI22)- and 25-kDa polyethylenimine (PEI25)-mediated transfection of primary hSkMs for angiogenic gene delivery. We found that transfection efficiency and cell viability of three nonviral vectors were cell passage dependent: early cell passages of hSkMs had higher transfection efficiencies with poor cell viabilities, whereas later cell passages of hSkMs had lower transfection efficiencies with better cell viabilities. Trypsinization improved the transfection efficiency by 20% to 60% compared with adherent hSkMs. Optimum gene transfection efficiency was found with passage 6 trypsinized hSkMs: transfection efficiency with CD lipoplexes was 6.99 +/- 0.13%, PEI22 polyplexes was 18.58 +/- 1.57%, and PEI25 polyplexes was 13.32 +/- 0.88%. When pEGFP (a plasmid encoding the enhanced green fluorescent protein) was replaced with a vector containing human vascular endothelial growth factor 165 (phVEGF(165)), the optimized gene transfection conditions resulted in hVEGF(165) expression up to Day 18 with a peak level at Day 2 after transfection. This study demonstrated that therapeutic angiogenic gene transfer through CD or PEI is feasible and safe after optimization. It could be a potential strategy for treatment of ischemic disease for angiomyogenesis.     

Gene transfection of multicellular spheroid of hepatocytes on an artificial substrate

The handling of hepatocytes, a major cell population in the liver, is an important technique in both liver tissue engineering and hepatology. However, these cells are so fragile that it has been impossible to harvest hepatocytes with high viability from tissue culture dishes after a period of culture in vitro. In this study, we employed an artificial substrate for transfection of multilayer hepatocytes and harvested these cells with high viability after transfection. Hepatocytes cultured on an amphiphilic artificial substrate form multilayer aggregates (spheroids) in the presence of growth factors during gene transfection with cation liposomes. Compared to cells cultured on a collagen-coated plate, these spheroids are easily harvested with high viability by pipetting in EDTA solution. In addition, these spheroids rapidly spread on collagen after transfer from the artificial substrate, demonstrating that hepatocytes in the center of the spheroids were viable. Epidermal growth factor (EGF) increased the transfection efficiency into hepatocytes while hepatocyte growth factor (HGF) alone did not increase the efficiency. However, HGF synergestically increased the effect of EGF on transfection. Interestingly, this transfection required the process of spheroid formation because the gene was not transfected once the spheroid formation completed or under conditions where hepatocytes did not form spheroids. This method using spheroidal hepatocytes for in vitro transfection is promising for the development of ex vivo gene therapy.     

Survivin反义核酸结合位点的体外筛选及鉴定

合成 2 0mer随机寡核苷酸文库 ,与体外转录出的全长survivincRNA杂交 ,RNaseH酶切割后 ,经引物延伸、放射自显影 ,共筛选出 13个针对survivin基因的反义结合位点 (antisenseaccessiblesites ,AAS) .运用RNADraw软件分析、选定具有显著茎环结构的 4个位点 ,合成互补性反义寡核苷酸AS ODN1、AS ODN2 、AS ODN3 、AS ODN4并转染高表达survivin基因的胃癌细胞株MKN 4 5 .逆转录聚合酶链反应和Western印迹检测发现MKN 4 5细胞的survivinmRNA和蛋白水平均有显著的下降 ;MTT比色法证实 6 0 0nmol LAS ODN1～AS ODN4转染 2 4h后细胞生长受到明显抑制 ,透射电镜、annexinⅤ FITC和PI双染色流式细胞术均检测到细胞凋亡 .说明运用随机寡核苷酸文库 RNaseH酶切割与计算机分析相结合的方法 ,在体外有效筛选出survivin的反义核酸结合位点 ,其相应的反义寡核苷酸能阻断survivin基因的生物学功能 .     

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

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.     

小鼠精原干细胞不同转染方法效率的比较

本研究采用腺病毒感染、慢病毒感染、脂质体转染和电穿孔转化方法将含有绿色荧光蛋白（GFP）的质粒转入经过差异贴壁法初步分离纯化的小鼠精原干细胞(SSCs)中,转染48 h后通过流式细胞仪检测GFP阳性细胞比例比较4种方法在体外转染精原干细胞的效率.结果显示,脂质体转染效率最高仅为8.64%,不能满足对精原干细胞进一步实验的要求;电穿孔法效率最高达到25.27%,但转化后细胞大量死亡;腺病毒转染细胞的效率达到了32.4%;慢病毒转染效率最高,达到74.25%. 因此,慢病毒转染法是体外转染小鼠精原干细胞的有效方法.     

A multi-step lipid mixing assay to model structural changes in cationic lipoplexes used for in vitro transfection.

Formation of liposome/polynucleotide complexes (lipoplexes) involves electrostatic interactions, which induce changes in liposome structure. The ability of these complexes to transfer DNA into cells is dependent on the physicochemical attributes of the complexes, therefore characterization of binding-induced changes in liposomes is critical for the development of lipid-based DNA delivery systems. To clarify the apparent lack of correlation between membrane fusion and in vitro transfection previously observed, we performed a multi-step lipid mixing assay to model the sequential steps involved in transfection. The roles of anion charge density, charge ratio and presence of salt on lipid mixing and liposome aggregation were investigated. The resonance-energy transfer method was used to monitor lipid mixing as cationic liposomes (DODAC/DOPE and DODAC/DOPC; 1:1 mole ratio) were combined with plasmid, oligonucleotides or Na(2)HPO(4). Cryo-transmission electron microscopy was performed to assess morphology. As plasmid or oligonucleotide concentration increased, lipid mixing and aggregation increased, but with Na(2)HPO(4) only aggregation occurred. NaCl (150 mM) reduced the extent of lipid mixing. Transfection studies suggest that the presence of salt during complexation had minimal effects on in vitro transfection. These data give new information about the effects of polynucleotide binding to cationic liposomes, illustrating the complicated nature of anion induced changes in liposome morphology and membrane behavior.