交联型聚乙烯亚胺智能基因载体的制备及PEG化影响

使用胱胺双丙烯酰胺(CBA)对低分子量聚乙烯亚胺(PEI)进行交联反应制备智能降解型聚阳离子基因载体.通过与聚乙二醇(PEG)反应得到不同程度PEG化的聚阳离子载体.利用核磁、黏度测试、粒度仪、zeta电位仪和凝胶电泳对聚阳离子载体及其与DNA的复合物进行了表征.研究表明随着PEG含量的增加,聚阳离子载体/DNA复合物颗粒粒径变小、表面正电荷降低,PEG具有明显的屏蔽作用,但过多的PEG也使载体与DNA复合能力下降.通过MTT细胞毒性测试和荧光素酶质粒转染实验得出,含二硫键的交联型阳离子聚合物在测试范围内显示了非常低的细胞毒性,最佳转染效率是PEI25k的4倍,PEG化后其细胞毒性得到进一步改善,转染效率却明显降低.     

自组装共混制备PEG化基因载体

通过含PEG链段的两亲聚合物的自组装共混, 制备了基于疏水作用力的新型PEG化非病毒基因载体. 分别选用胆固醇-聚乙二醇和聚乙二醇-聚丙二醇-聚乙二醇作为共混改性剂, 研究两亲聚合物的种类对组装体在生理盐溶液中的稳定性及基因转染效率的影响. 结果表明, 疏水驱动力的大小是获得稳定的PEG化基因超分子组装体的关键. 通过对两亲聚合物中疏水链段的选择调控, 可制备稳定的PEG化基因超分子组装体, 提高基因传递体系在生理盐溶液中的稳定性及基因转染效率. 通过自组装共混, 为新型PEG化基因超分子组装体的制备提供了切实可行的新方法.     

液态聚乙二醇作为绿色反应介质在有机反应中的应用

低分子量的液态聚乙二醇（PEG）作为一种新型的绿色有机反应溶剂正受到人们的极大关注。PEG具有好的热稳定性、不挥发、不易燃、无毒、生物可降解、廉价易得,以及易于回收和循环使用。此外,PEG可以溶解众多的有机化合物和有机金属配合物。因此,PEG作为有机溶剂的替代品和作为均相催化剂的载体已经成功地应用到许多有机反应中,它们包括还原反应、氢化反应、氧化反应、不对称双羟基化反应、Heck反应、Suzuki交叉偶联反应、Michael加成反应、不对称Aldol反应、Baylis-Hillman反应、脂肪酶催化的反应和聚合反应等。本文对这一领域的研究进展作一综述。     

聚乙二醇-聚苯乙烯接枝共聚物的合成及其接肽反应性能

本文应用环氧乙烷在羟乙基树脂上的开环聚合方法,合成了凝胶和大孔型聚乙二醇-聚苯乙烯接枝共聚物(简称PEG树脂)。对不同类型载体的接肽反应动力学性能研究表明,在PEG树脂载体上的反应速度是在氯甲基化树脂上的三倍,与在溶液中进行的接肽反应速率相当。此外,还对载体性能与树脂交联度、骨架结构之间的关系进行了初步探索。     

聚(L-谷氨酸γ-苄酯)-聚四氢呋喃-聚(L-谷氨酸γ-苄酯)三嵌段共聚物的合成与表征

聚氨基酸是一类低毒性、生物相容性良好、易被机体吸收和代谢的可降解合成高分子材料，在药物控释载体、组织工程支架、生物材料表面改性方面得到了广泛应用．但其降解周期及降解速度通常难以控制，应用受到一定限制．通过共聚方法将生物相容和亲水性良好的聚乙二醇（PEG）引入聚氨基酸链段中形成两亲性嵌段共聚物旧，研究其自组装行为，及作为基因转染和药物控释载体等已成为高分子科学领域新的研究热点．     

PEG化的聚合物载体树脂研究进展

组合化学已成为发现和优化新药、亲和配体和催化过程中的重要组成部分.高分子载体树脂在组合化学中起着关键的作用,各种类型的聚合物树脂在有机合成中已被广泛开发为载体、反应物和催化剂.与传统的Merrifield树脂相比较,聚乙二醇(PEG)化的聚合物树脂具有与极性溶剂更好的相容性、更高的溶剂吸收和溶胀性能.本文主要综述与PEG相关联的聚合物树脂在有机合成载体领域中的最新成果.     

聚乙二醇功能化程度对纳米金壳夹心二氧化硅载药量及稳定性影响研究

本文系统研究了不同聚乙二醇(PEG)功能化程度对纳米金壳夹心二氧化硅(GSNs)载药量及稳定性的影响.透射电子显微镜(TEM)观察结果表明,GSNs表面经修饰分子量为5 KDa的α-甲氧基-ω-巯基聚乙二醇(mPEG-SH)分子后,PEG分子层平均厚度约为4 nm;随PEG化程度增加,GSNs聚集沉降速度改善,稳定性提高,久置后(35 d)稳定性良好;电感耦合等离子体发射光谱(ICP-OES)测试表明,当PEG与Au反应摩尔比为0.24时,PEG分子层在金壳表面接近饱和;不同PEG化程度对GSNs载药量基本无影响.本研究可为优化无机纳米材料表面PEG修饰过程,发展无机纳米载体材料体内应用提供理论依据.     

侧链PEG基聚合物的制备及其催化酯化反应性能

聚乙二醇单(乙烯基苄基)醚(PEG-VBE)和聚乙二醇二(乙烯基苄基)醚(PEG-DVBE)是重要的可聚合聚乙二醇衍生物,可用于催化剂载体及功能高分子的合成。本文以氢氧化钾为碱,乙烯基苄基氯(VBC)与乙二醇、一缩二乙二醇、二缩三乙二醇、PEG400、PEG600和PEG1500反应,高效合成了一系列乙烯基苄基聚乙二醇衍生物,乙烯基苄基氯的转化率可达96%以上,PEG-VBE的分离收率为32 ~ 93%。乙烯基衍生物在过硫酸钾引发下聚合得到水溶性高分子,产物经1H NMR、ESI-HRMS及FT-IR分析表征。以制备的水溶性PEG基聚合物为微反应器,研究了苯甲酸与甲醇的酯化反应,PEG基聚合物与硫酸的体系对酯化反应具有很好地催化活性。在优化的条件下,苯甲酸的转化率可达99%以上,催化体系循环5次后,催化活性几乎没有下降     

壳聚糖/聚乙二醇/聚丙烯酸复合水凝胶的制备及药物控制释放行为研究

本文以壳聚糖(CS)、聚乙二醇(PEG)和丙烯酸(AA)为原料,制备了复合水凝胶CS/PEG/PAA。研究了负载四种具有不同结构和性质的药物(烟酸、烟酰胺、异烟肼和5-氟尿嘧啶)的复合水凝胶CS/PEG/PAA的药物控制释放行为。结果表明,烟酰胺和异烟肼在pH=1.80的缓冲溶液中的药物累积释放率(R)大于其在pH=6.86的缓冲溶液中的释放率;烟酸却在pH=6.86的缓冲溶液中的药物累积释放率(R)大于其在pH=1.80的缓冲溶液中的释放率。而5-氟尿嘧啶在两种缓冲溶液中的药物累积释放量相当。因此,复合水凝胶CS/PEG/PAA也许可以作为一种新型释放药物的载体。     

在交联聚合物微球GMA/MMA表面接枝固载聚乙二醇的研究

以乙二醇二甲基丙烯酸酯为交联剂,采用悬浮聚合方法,制备了甲基丙烯酸缩水甘油酯(GMA)和甲基丙烯酸甲酯(MMA)的交联微球GMA/MMA.使用Lewis酸催化剂,通过环氧键的开环反应,将聚乙二醇(PEG)偶合接枝在交联微球GMA/MMA表面,实现了PEG的固载化,制得了三相相转移催化剂PEG-GMA/MMA.重点考察了各种因素对PEG接枝固载过程的影响,并研究了反应机理.实验结果表明,以交联微球GMA/MMA为载体,可以顺利地实现PEG的固载化,这是制备PEG三相相转移催化剂的简捷途径.实验发现,Lewis酸也能催化环氧键的开环反应,而且比质子酸的催化更加有效.溶剂的极性对偶合接枝反应的影响较大,采用极性大的溶剂有利于PEG的接枝固载.偶合接枝体系中,过高的催化剂用量会导致PEG双端羟基参与接枝反应,使载体表面大分子之间发生附加交联,不利于PEG的接枝固载.在适宜的反应条件下,接枝微球PEG-GMA/MMA表面的PEG接枝度可达0.20 g/g.     

Polyethylene glycol-based ultrasound-assisted extraction of magnolol and honokiol from Cortex Magnoliae Officinalis

In this study, a kind of green solvent named polyethylene glycol (PEG) was developed for the ultrasound-assisted extraction (UAE) of magnolol and honokiol from Cortex Magnoliae Officinalis. The effects of PEG molecular weight, PEG concentration, sample size, pH, ultrasonic power and extraction time on the extraction of magnolol and honokiol were investigated to optimise the extraction conditions. Under the optimal extraction conditions, the PEG-based UAE supplied higher extraction efficiencies of magnolol and honokiol than the ethanol-based UAE and traditional ethanol-reflux extraction. Furthermore, the correlation coefficient (R²), repeatability (relative standard deviation, n = 6) and recovery confirmed the validation of the proposed extraction method, which were 0.9993–0.9996, 3.1–4.6% and 92.3–106.8%, respectively.     

PFOS对哈维氏弧菌生长及外毒素基因的影响

探讨了全氟辛烷磺酸盐(PROS)对哈维氏弧菌密度及外毒素基因表达的影响.用含有不同浓度PFOS(5、50、500 mmol/L)的培养基培养哈维氏弧菌,分别在6、15、24 h取适量菌液,经4 000 r/min离心,磷酸盐缓冲液(PBS)洗涤3次,制成PBS菌悬液.采用实时荧光定量PCR检测其胞外蛋白酶、溶血素及保守...     

Emulsion type new vehicle for soft gelatin capsule available for preclinical and clinical trials: effects of PEG 6000 and PVP K30 on physicochemical stability of new vehicle.

To prevent temperature-dependent gel-sol transformation of an o/w emulsion type new vehicle system for a soft gelatin capsule, which may be available for both preclinical and clinical trials, the basic new vehicle formulation (PEG 400:purified water:medium chain triglyceride:polyoxyethylene (20) cetylether = 77:10:10:3) was modified by partially (1, 2 or 3%) replacing PEG 400 with PEG 6000 or PVP K30. When 2 or 3% of PEG 400 was replaced with PEG 6000, temperature-dependent gel-sol transformation was prevented at temperatures below 40 degrees C, and the vehicle appeared to be stable during 8 weeks of storage at 4 to 40 degrees C; the particle size distribution remained unchanged. When 1% of PEG 400 was replaced with PEG 6000, gel-sol transformation was not prevented, though phase separation was not observed at sol state, and the particle size distribution was shifted to be in a larger particle size range after 2 weeks of storage. When PEG 400 was partially (1, 2 or 3%) replaced with PVP K30, temperature-dependent gel-sol transformation was not prevented and, after 2 weeks of storage at 40 degrees C, the particle size distributions of the vehicles were shifted to be in a larger particle size range and the vehicles were separated into two layers. These results suggested that a small amount of PEG 6000 plays an important role in preventing temperature-dependent gel-sol transformation of our developed vehicle system.     

Melting behavior of pure polyethylene glycol 6000 and polyethylene glycol 6000 in solid dispersions containing diazepam or temazepam: a DSC study

The purpose of the present study was to investigate the melting behavior of polyethylene glycol 6000 (PEG 6000) as such as well as in solid dispersions containing diazepam or temazepam, prepared by solvent and fusion methods, using differential scanning calorimetry (DSC). It was shown that the melting behavior of pure PEG 6000 is influenced by the crystallization procedure applied. Fusion at 80°C followed by cooling always yielded three different crystal modifications. The rate of cooling (under controlled conditions) was found to have a significant influence on the relative distribution of the three modifications: the lower the cooling rate, the higher the relative amount of the extended modification. Crystallization from organic solution yielded mainly the once folded form. The presence of diazepam and temazepam influenced the relative amount of the different PEG 6000 modifications. Both drugs decreased the formation of the more stable modification, while the formation of the twice folded form was induced. However, in the case of temazepam the contribution of the extended form at higher drug levels increased in dispersions obtained from organic solutions.     

离子交换色谱法分离纯化鸡卵黄免疫球蛋白

建立了高效、经济、大规模获得鸡卵黄免疫球蛋白(IgY)的生产方法。在对传统的水稀释法改良的基础上,结合聚乙二醇沉淀与离子交换色谱进行IgY的分离纯化。结果显示,用8倍无菌水稀释蛋黄液,用0.1 mol/L HCl调节pH为5.2,在4 ℃下静置8 h,于5000×g力离心可得上清粗IgY液,经测定回收率可达93.47%。然后用6%聚乙二醇沉淀后经DEAE-Toyopearl 650 M离子交换纯化,最佳的纯化条件: 0.05 mol/L磷酸盐缓冲液(PBS, pH 7)平衡上样,0.075 mol/L PBS(pH 7)洗脱。十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)分析结果显示所得的IgY的纯度为95.02%,活性保持率高达73.77%。本研究弥补了传统分离方法不能同时达到高纯度和高回收率的缺点,且可用于大规模生产。     

Effect of crystallization behavior of polyethylene glycol 6000 on the properties of granules prepared by fluidized hot-melt granulation (FHMG)

The objective of this study was to investigate the effect of the crystallization behavior of Macrogol 6000 (polyethylene glycol 6000; PEG 6000), used as a binder, during the solidification process on the properties of mononucleic granules prepared by the fluidized hot-melt granulation (FHMG) technique. Crystallization of PEG 6000 from molten liquid was investigated using differential scanning calorimetry (DSC) and hot stage microscopy. The results obtained from the measurement of isothermal crystallization demonstrated that crystallization of PEG 6000 was either slow or rapid. Analysis based on solid-state decomposition showed that slow crystallization was due to the two-dimensional growth of nuclei mechanism, while rapid crystallization was due to the three-dimensional growth of nuclei mechanism. Observation of the crystallization of PEG 6000 by hot stage microscopy supported the existence of two different crystallization mechanisms. Granules containing PEG 6000 that underwent rapid crystallization during FHMG showed a significantly higher fraction powder under 150 microm in diameter. This was caused by the loss of powder particles from the surface of mononucleic granules during the solidification process, because many cracks were observed after crystallization of PEG 6000 with a short isothermal crystallization time (ICT) due to the reduced of sticking of particles. The results of this study suggested that the crystallization behavior of the binder during the solidification process of FHMG can influence the properties of the resultant granules, such as particle size distribution, content uniformity or taste masking. It was also indicated that measuring the ICT using DSC was a useful method to classify PEG 6000.     

Tensammetry with accumulation on the hanging mercury drop electrode: Part 2. The behaviour of mixtures of Poly(ethylene glycols) as an Example of Surfactant Mixtures

Model investigations with two-, three- and four-component mixtures of poly(ethylene glycols) (PEG) having different molecular weights (1500–20 000) are described. Three different types of mixture can be distinguished. The first group comprises mixtures of components which have very similar properties and behave additively; such mixtures give only one peak, the height of wich depends linearly on the total concentration of PEG. Examples are mixtures of PEG 9000 with PEG 20 000, and PEG 6000 with PEG 9000 or PEG 20 000. The second group consits of mixtures of components with rather different properties; in such cases, a suitable choice of preconcentration potential enables one component to be determined with adequate precision, even in the presence a 100-fold amount of another component. Examples are mixtures of PEG 4000, PEG 9000 or PEG 20 000 with a 100-fold amount of PEG 1500, and multicomponent mixtures consisting of PEGs 6000, 9000 and 20 000 with PEG 1500 in excess; in the latter case, the three PEGs of higher-molecular-weight behave as a single component. The third group comprises mixtures of components which have similar properties, but which behave nonadditively; their properties are too similar for any component to be eliminated by choosing a suitable preconcentration potential, and two very close peaks of dubious usefulness are obtained. Mixtures of PEG 4000, 6000, 9000 and 20 000, or of PEG 4000, 9000 and 20 000 behave in this way.     

Study on the PEG‐based microwave‐assisted extraction of flavonoid compounds from persimmon leaves

A method for PEG‐based microwave‐assisted extraction (MAE) of flavonoid compounds from persimmon leaves has been successfully developed. The extraction efficiency of total flavonoid content was evaluated by the chromatographic peak areas of quercetin and kaempferol, which are two bioactive components typically found in persimmon leaves. The best combination of extraction parameters was obtained with response surface methodology. A microwave power of 525 W, liquid to solid ratio of 17:1 mL/g, and PEG aqueous solution concentration of 60% w/w were identified as the optimum parameters. Extraction dynamics analysis indicated that the quercetin, kaempferol, and total flavonoid contents were rising with increasing extraction time up to 20–25 min, from which point onwards they all decreased. Under the optimum conditions, quercetin, kaempferol, and total flavonoid contents obtained from the sample were 1.20 ± 0.05, 0.64 ± 0.11, and 16.90 ± 0.06 mg/g, respectively. Compared with ethanol‐based MAE, and ethanol‐based and PEG‐based ultrasonic‐assisted extractions, PEG‐based MAE had higher efficiency for the extraction of flavonoid compounds from persimmon leaves. Overall, PEG‐based MAE represents an efficient choice for the extraction of bioactive substances from traditional Chinese medicines.     

Formulation of a Poorly Water-Soluble Drug Sirolimus in Solid Dispersions to Improve Dissolution

An attempt has been made to enhance solubility and dissolution of sirolimus by solid dispersion and complexation technique using various hydrophilic excipients. Sirolimus an immunosuppressant agent has low bioavailability due to its low aqueous solubility. Solid dispersion of sirolimus in PEG-6000, Poloxamer-188, and Mannitol were prepared by fusion and solvent evaporation method. Beta-CD complexation of sirolimus was prepared by kneading method. In vitro dissolution studies were carried out in 0.4% SLS in water, which showed that the solid dispersion containing PEG 6000 (1:1), which was prepared by solvent evaporation method, showed faster dissolution rate than the other formulations and β-cyclodextrin complex. Solid dispersions containing PEG 6000 was further investigated by x-ray powder diffraction, differential scanning calorimetry (DSC), and FTIR. X-ray powder diffraction and DSC patterns suggested that the drug state changed from crystalline to amorphous form in the formulation.     

纳米铝佐剂吸附HBsAg及其免疫学效应的研究

纳米材料用作疫苗佐剂,已受到极大重视[1～4].Kreuter等[5]于1981年首次将纳米材料应用于疫苗佐剂.但直到20世纪90年代初,纳米生物学领域才有了长足进步[6].铝佐剂包括Al(OH)3和AlPO4两种,而Al(OH)3是目前唯一被FDA认证的人用佐剂.本文自制纳米铝佐剂,通过物理吸附HBsAg,以常规铝佐剂为对照,研究Balb/c小鼠和豚鼠对两种佐剂疫苗的体液免疫应答和细胞免疫应答.1实验部分1.1材料、仪器和实验动物HBsAg纯抗原、OPD、辣根过氧化物酶标记的羊抗Balb/c小鼠IgG、ConA、RPMI1640、小牛血清、3H-TdR、氢氧化铝佐剂商业品(2mg/mL);纳米…