Microencapsulation of nanoparticulate complexes of DNA with cationic lipids and polymers in pectin beads for targeted gene delivery

Nanoparticulate complexes of plasmid DNA (pDNA) with cationic liposomes/polymer, of approx 200 nm diameter, were encapsulated with a high degree of efficiency within calcium pectinate gel beads. Electron microscopy showed the DNA nanocomplexes to be evenly distributed throughout the gel matrix. Controlled release of pDNA-lipid nanocomplexes was achieved by the action of pectinase enzymes, whereas release of naked and polymer-complexed DNA was found to be more greatly influenced by the swelling behavior of the polysaccharide matrices in buffer alone. Physical degradation of pDNA within pectin beads was found to be accelerated during bead drying, most probably as a result of shear forces generated within the gel matrices by the evaporation of water. Plasmid complexation with cationic liposomes provided a greater degree of protection for the DNA during bead drying than complexation with cationic polymer, and was shown to successfully transfect cultured cells after release from the beads, via the action of pectinase. Observations concerning the physical stability of nanocomplexed pDNA, and its encapsulation within and release from pectin gel beads, are discussed with reference to the electrostatic interactions existing between the various components.     

α-Tocopherol-ascorbic acid hybrid antioxidant based cationic amphiphile for gene delivery: Design,synthesis and transfection

Natural antioxidants and vitamins have potential to protect biological systems from peroxidative damage induced by peroxyl radicals, α-tocopherol (Vitamin E, lipid soluble) and ascorbic acid (vitamin C, water soluble), well known natural antioxidant molecules. In the present study we described the synthesis and biological evaluation of hybrid of these two natural antioxidants with each other via ammonium di-ethylether linker, Toc-As in gene delivery. Two control cationic lipids N14-As and Toc-NOH are designed in such a way that one is with ascorbic acid moiety and no tocopherol moiety; another is with tocopherol moiety and no ascorbic acid moiety respectively. All the three cationic lipids can form self-assembled aggregates. The antioxidant efficiencies of the three lipids were compared with free ascorbic acid. The cationic lipids (Toc-As, N14-As and Toc-NOH) were formulated individually with a well-known fusogenic co-lipid DOPE and characterization studies such as DNA binding, heparin displacement, size, charge, circular dichroism were performed. The biological characterization studies such as cell viability assay and in vitro transfection studies were carried out with the above formulations in HepG2, Neuro-2a, CHO andHEK-293T cell lines. The three formulations showed their transfection efficiencies with highest in Toc-As, moderate inN14-As and least in Toc-NOH. Interestingly, the transfection efficiency observed with the antioxidant based conjugated lipid Toc-As is found to be approximately two and half fold higher than the commercially available lipofectamine 2000 at 4:1 charge ratio in Hep G2 cell lines. In the other cell lines studied the efficiency of Toc-As is found to be either higher or similarly active compared to lipofectamine 2000. The physicochemical characterization results show that Toc-As lipid is showing maximum antioxidant potency, strong binding with pDNA, least size and optimal zeta potential. It is also found to be least toxic in all the cell lines studied especially in Neuro-2a cell lines when compared to other two lipids. In summary, the designed antioxidant lipid can be exploited as a delivering system for treating ROS related diseases such as malignancy, brain stroke, etc.     

Cell-Specific Targeting of Lipid-Based Carriers for ODN and DNA

It is well recognized that there is an urgent need for non-toxic systemically applicable vectors for biologically active nucleotides to fully exploit the current potential of molecular medicine in gene therapy. Cell-specific targeting of non-viral lipid-based carriers for ODN and DNA is a prerequisite to attain the concentration of nucleic acids required for therapeutic efficacy in the target tissue. In this review we will address the most promising approaches to selective targeting of liposomal nucleic acid carriers in vivo. In addition, the routes of entry and intracellular processing of these carrier systems are discussed as well as physiological factors potentially interfering with the biological and/or therapeutic activity of their nucleotide pay-load.     

Entrapment of Ovalbumin into Liposomes—Factors Affecting Entrapment Efficiency,Liposome Size,and Zeta Potential

Various amounts of Ovalbumin (OVA) were encapsulated into positively and negatively charged multilamellar liposomes, with the aim to investigate the entrapment efficiency in different buffers and to study their effects on the liposome size and zeta potential. Results showed that the entrapment efficiency of OVA in anionic liposomes was the same in 10 mM Phosphate Buffer (PB) as in Phosphate-Buffered Saline (PBS; PB?+?0.15 M NaCl). Also, liposome size was approximately 1200 nm for all anionic liposomes incorporating OVA. The entrapment efficiency of OVA in cationic liposomes was highly dependent on ionic strength. The size of cationic liposomes was approximately 1200 nm in PBS, regardless of protein content, but increased with the amount of the incorporated protein in PB. Aggregation of cationic liposomes in PB was observed when the mass of the protein was 2.5 mg or greater. The zeta potential of anionic liposomes was negative and of cationic liposomes positive in the whole range of protein mass tested. These results show how different compositions of lipid and aqueous phases can be used to vary the entrapment efficiency, liposome size, and zeta potential—the factors that are of great importance for the use of liposomes as drug carriers.     

阳离子脂质体介导基因转染肿瘤细胞

使用基因转运载体运载肿瘤细胞进行转染是基因治疗的关键环节之一。Lipo-fectamine2000和DOTAP作为商品转染试剂,具有较高的转染效率。为了进一步发掘其作为基因转运载体的应用潜力,该文研究了Lipofectamine2000和DOTAP的粒径、Zeta电位及形态,并分别与绿色荧光蛋白基因（pGFP—N2）、荧光素酶基因（pGL3）结合,形成脂质体／DNA复合物,通过载入人喉癌细胞（Hep-2）和人肺癌细胞（NCI—H460）,考察了其转染效率和细胞毒性。结果表明,脂质体Lipofectamine2000与DOTAP都能有效压缩DNA,形成复合物。Lipofectamine2000与DOTAP井目比,转染效率高,与DNA最佳转染比例范围为2：1～4：1。毒性实验显示,在N／P大于3／l时,Lipofectamine2000与DOTAP对癌细胞具有一定的细胞毒性。细胞种类对脂质体的转染效率有很大影响,Lipo—fectamine2000对Hep－2细胞的转染效率比NcI—H460高。     

Potent and selective gene inhibition using antisense oligodeoxynucleotides

The development of antisense technology as a generally useful tool relies on the use of potent agents and the utilization of many controls in experiments. Here we describe our experience using oligodeoxynucleotides (ODNs) containing C-5 propynyl pyrimidine and phosphorothioate modifications as broadly applicable gene inhibition agents in cell culture. Methods include selection of antisense sequences, synthesis and purification of ODNs, choice of controls, delivery methods (microinjection, cationic lipid transfection, and electroporation), and analysis of gene inhibition.     

Facile synthesis of carbon-11-labeled cholesterol-based cationic lipids as new potential PET probes for imaging of gene delivery in cancer

Gene therapy based on gene delivery is a promising strategy for the treatment of various human diseases such as cancer. Cationic lipids represent one of the important synthetic gene delivery systems. There is a great interest in imaging of gene therapy using the biomedical imaging technique positron emission tomography (PET). Carbon-11-labeled cholesterol-based cationic lipids were first designed and synthesized as new potential PET probes for imaging of gene delivery in cancer. The [¹¹C-methyl]quaternary amine target tracers, N-[¹¹C]methyl-N-[4-(cholest-5-en-3β-yloxycarbonyl)butyl]pyrrolidinium iodide ([¹¹C]4a), N-[¹¹C]methyl-N′-[4-(cholest-5-en-3β-yloxycarbonyl)butyl]imidazolium iodide ([¹¹C]4b), N-[¹¹C]methyl-N-[4-(cholest-5-en-3β-yloxycarbonyl)butyl]piperidinium iodide ([¹¹C]4c), N-[¹¹C]methyl-N-[4-(cholest-5-en-3β-yloxycarbonyl)butyl]-4-methylpiperidinium iodide ([¹¹C]4d), and N-[¹¹C]methyl-N-[4-(cholest-5-en-3β-yloxycarbonyl)butyl]morpholinium iodide ([¹¹C]4e), were prepared from their corresponding tertiary amine precursors with [¹¹C]methyl iodide ([¹¹C]CH₃I) through N-[¹¹C]methylation and isolated by a simplified solid-phase extraction (SPE) method using a Silica Sep-Pak cartridge in 50-60% radiochemical yields decay corrected to end-of-bombardment (EOB), based on [¹¹C]CO₂, and 111-185 GBq/μmol specific activity at the end of synthesis (EOS).     

The cardiac mutant Mexican axolotl is a unique animal model for evaluation of cardiac myofibrillogenesis

Hearts from cardiac mutant Mexican axolotl, Ambystoma mexicanum, do not form organized myofibrils and fail to beat. Though previous biochemical and immunohistochemical experiments showed a possible reduction of cardiac tropomyosin it was not clear that this caused the lack of organized myofibrils in mutant hearts. We used cationic liposomes to introduce both rabbit and chicken tropomyosin protein into whole hearts of embryonic axolotls in whole heart organ cultures. The mutant hearts had a striking increase in the number of well-organized sarcomeric myofibrils when treated with rabbit or chicken tropomyosin. FITC-labeled rabbit tropomyosin was used to examine the kinetics of incorporation of the exogenous protein into mutant hearts and confirmed the uptake of exogenous protein by the cells of live hearts in culture. By 4 h of transfection, both normal and mutant hearts were found to incorporate FITC-labeled tropomyosin into myofibrils. We also delivered an anti-tropomyosin antibody (CH 1) into normal hearts to disrupt the existing cardiac myofibrils which also resulted in reduced heartbeat rates. CH1 antibody was detected within the hearts and disorganization of the myofibrils was apparent when compared to normal controls. Introduction of a C-protein monoclonal antibody (ALD 66) did not result in a disruption of organized myofibrils. The results show clearly that chicken or rabbit tropomyosin could be incorporated by the mutant hearts and that it was sufficient to overcome the factors causing a lack of myofibril formation in the mutant. This finding also suggests that a lack of organized myofibrils is caused primarily by either inadequate levels of tropomyosin or endogenous tropomyosin in mutant hearts is unsuitable for myofibril formation, which we were able to duplicate with the introduction of tropomyosin antibody. Furthermore, incorporation of a specific exogenous protein or antibody into normal and mutant hearts of the Mexican axolotl in whole heart organ culture offers an unique model to evaluate functionalroles of contractile proteins necessary for cardiac development and differentiation.     

Controlled Topical Delivery of Hydrocortisone and Mannitol Via Select Pathways

Abstract

In an earlier report (1) we described the controlled follicular delivery of hydrophobic macromolecules from nonionic lipid-based formulations composed of glyceryl dilaurate (GDL), cholesterol (CH), and polyoxyethylene-10-stearyl ether (POE-10). However, the influence of lipid composition on topical delivery of marginally hydrophobic and hydrophilic drugs from these nonionic lipid-based systems has not been investigated. In this report we describe the effect of variation of GDL to POE-10 ratio in the nonionic lipid-based formulations on the extent and route of delivery of hydrocortisone and mannitol, a marginally hydrophobic and hydrophilic model drug, respectively, into and through hairless mouse skin mounted on Franz diffusion cells. The results indicate that the extent of hydrocortisone uptake increased with increasing GDL to POE-10 weight ratio whereas mannitol uptake was quite the opposite and decreased with increasing GDL to POE-10 weight ratio. The diametrically opposite trends for the two drug markers suggests strongly that hydrocortisone and mannitol are transported into and across skin from the nonionic lipid-based formulations via two distinctly different routes. Further, the finding from microautoradiographic studies that the delivery of hydrocortisone from nonionic lipid-based lipid melt formulations was predominantly across the transfollicular route compared to its transport across both the trans-epidermal and transfollicular pathways from nonionic lipid-based liposomes, suggests that it is possible to tailor formulations for specific and targeted delivery across a certain route.     

Positively charged acyl derivatives of carbohydrates as promising transfection agents

A convenient approach to the synthesis of mono-and polycationic glycolipid amphiphiles is suggested. The compounds obtained can be used for studying the structure-activity relationship and determination of the effect of hydrophobic and cationic domains on the transfection efficiency.     

负载噬菌体qdvp001的阳离子脂质体的制备及热稳定性和抗菌活性

[背景]副溶血弧菌噬菌体qdvp001在防治副溶血弧菌污染方面具有巨大的应用潜力,但其对温度的敏感性较高,在较高的温度环境下会失活.[目的]利用阳离子脂质体包埋保护噬菌体qdvp001以提高其热稳定性,同时探究其脂质体包被液的抗菌活性.[方法]制备和表征负载副溶血弧菌噬菌体qdvp001的阳离子脂质体,测定阳离子脂质体...