Sha'ban Munirah, Yoon Sun Jung, Ko Youn Kyung, Ha Hyun Jung, Kim Soon Hee, So Jung Won, Idrus Ruszymah Bt Hj, Khang Gilson
Department of Physiology, Faculty of Medicine, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, Kuala Lumpur, Malaysia.
J Biomater Sci Polym Ed. 2008;19(9):1219-37. doi: 10.1163/156856208785540163.
Previously, we have proven that fibrin and poly(lactic-co-glycolic acid) (PLGA) scaffolds facilitate cell proliferation, matrix production and early chondrogenesis of rabbit articular chondrocytes in in vitro and in vivo experiments. In this study, we evaluated the potential of fibrin/PLGA scaffold for intervertebral disc (IVD) tissue engineering using annulus fibrosus (AF) and nucleus pulposus (NP) cells in relation to potential clinical application. PLGA scaffolds were soaked in cells-fibrin suspension and polymerized by dropping thrombin-sodium chloride (CaCl(2)) solution. A PLGA-cell complex without fibrin was used as control. Higher cellular proliferation activity was observed in fibrin/PLGA-seeded AF and NP cells at each time point of 3, 7, 14 and 7 days using the MTT assay. After 3 weeks in vitro incubation, fibrin/PLGA exhibited a firmer gross morphology than PLGA groups. A significant cartilaginous tissue formation was observed in fibrin/PLGA, as proven by the development of cells cluster of various sizes and three-dimensional (3D) cartilaginous histoarchitecture and the presence of proteoglycan-rich matrix and glycosaminoglycan (GAG). The sGAG production measured by 1,9-dimethylmethylene blue (DMMB) assay revealed greater sGAG production in fibrin/PLGA than PLGA group. Immunohistochemical analyses showed expressions of collagen type II, aggrecan core protein and collagen type I genes throughout in vitro culture in both fibrin/PLGA and PLGA. In conclusion, fibrin promotes cell proliferation, stable in vitro tissue morphology, superior cartilaginous tissue formation and sGAG production of AF and NP cells cultured in PLGA scaffold. The 3D porous PLGA scaffold-cell complexes using fibrin can provide a vehicle for delivery of cells to regenerate tissue-engineered IVD tissue.
此前,我们已经证明,在体外和体内实验中,纤维蛋白和聚乳酸-乙醇酸共聚物(PLGA)支架可促进兔关节软骨细胞的增殖、基质产生和早期软骨形成。在本研究中,我们评估了纤维蛋白/PLGA支架在椎间盘(IVD)组织工程中的潜力,该研究使用了纤维环(AF)和髓核(NP)细胞,与潜在的临床应用相关。将PLGA支架浸泡在细胞-纤维蛋白悬浮液中,并通过滴加凝血酶-氯化钠(CaCl₂)溶液进行聚合。将不含纤维蛋白的PLGA-细胞复合物用作对照。使用MTT法在3、7、14和21天的每个时间点观察到,接种于纤维蛋白/PLGA的AF和NP细胞具有更高的细胞增殖活性。体外培养3周后,纤维蛋白/PLGA的大体形态比PLGA组更坚实。在纤维蛋白/PLGA中观察到明显的软骨组织形成,这通过各种大小的细胞簇的形成、三维(3D)软骨组织结构以及富含蛋白聚糖的基质和糖胺聚糖(GAG)的存在得到证实。通过1,9-二甲基亚甲基蓝(DMMB)测定法测量的sGAG产量显示,纤维蛋白/PLGA中的sGAG产量高于PLGA组。免疫组织化学分析表明,在体外培养过程中,纤维蛋白/PLGA和PLGA中均有II型胶原、聚集蛋白聚糖核心蛋白和I型胶原基因的表达。总之,纤维蛋白可促进细胞增殖、体外组织形态稳定、软骨组织形成优越以及在PLGA支架中培养的AF和NP细胞的sGAG产生。使用纤维蛋白的3D多孔PLGA支架-细胞复合物可为细胞递送提供载体,以再生组织工程化的IVD组织。
