两亲性聚(L-谷氨酸γ-苄基酯)-聚乙二醇接枝共聚物的自组装行为和载药性能研究

Self-association behavior of an amphiphilic polypeptide graft copolymer,poly(γ-benzyl L-glutamate)-g-poly(ethylene glycol), and the drug carrier capability of the formed micelles were examined by fluorescence spectroscopy,transmission electron microscopy and UV spectroscopy.It was found that the hydrophobic inner core of the micelles formed by poly(γbenzyl L-glutamate)(PBLG) segments can act as an incorporation site for hydrophobic drugs.The drug-loading content of the graft copolymer micelles tends to be larger when the content of the PBLG segments in the copolymer increases.The results obtained from the drug-release studies showed that the drug-release rates were dependent on the chemical nature of the graft copolymer.

聚丙烯酸苄酯/聚谷氨酸苄酯嵌段共聚物的合成与表征

通过自由基聚合制备了氨基封端的聚丙烯酸苄基酯(PBzA-NH2);用PBzA-NH2作为大分子引发剂,引发L-谷氨酸-N-羧酸酐(BLG-NCA)开环聚合,得到聚丙烯酸苄基酯/聚L-谷氨酸苄基酯两嵌段共聚物。用1H-NMR、GPC、元素分析等对聚合物的结构进行表征,结果表明,PBzA-NH2能够引发BLG-NCA开环聚合制备嵌段共聚物,且分子量可控。

溶剂性质对两亲性聚肽静电纺丝的影响

通过对聚(γ-苄基L-谷氨酸酯)(PBLG)的亲水改性制备了两亲性聚(γ-苄基L-谷氨酸酯-co-羟乙谷酰胺)无规共聚肽(PBHG)用于静电纺丝制备超细纤维.通过傅里叶变换红外光谱、核磁共振氢谱表征了聚合物结构.通过测定溶液表面张力、黏度、电导率及扫描电镜观察纤维形貌考察了不同溶剂及PBHG浓度对纺丝溶液性质及电纺纤维的影响.通过水浸实验及MTT法评价了电纺纤维膜的亲水性及细胞相容性.研究发现在三氯甲烷(TCM)和四氢呋喃(THF)中PBHG采取α-螺旋构象,刚性分子链自取向排列,可获得直径为微米或亚微米的电纺纤维.以TCM为溶剂时,因溶液表面张力大、导电率低导致纤维品质较差,而以THF为溶剂可获得表面光洁、尺寸均匀的电纺纤维.当溶剂为三氟乙酸(TFA)时,PBHG采取无规线团构象,柔性分子链彼此缠结,同时溶液表面张力小、黏度低、电导率高,可获得纳米电纺纤维.但因TFA挥发性相对较差,易造成纤维粘连.将TFA与TCM复配后作为溶剂可改善纤维粘连问题.与PBLG电纺纤维相比,改性后的PBHG电纺纤维的亲水性得到了改善,可在水中保持纤维骨架而无需交联,并表现出良好的细胞相容性,能促进细胞在电纺纤维膜上的增殖.