Josifovska Natasha, Szabó Dóra Júlia, Nagymihály Richárd, Veréb Zoltán, Facskó Andrea, Eriksen Ketil, Moe Morten C, Petrovski Goran
Stem Cells and Eye Research Laboratory, Department of Ophthalmology, Faculty of Medicine, University of Szeged, Koranyi Fasor 10-11, 6720 Szeged, Hungary.
Center for Eye Research, Department of Ophthalmology, Oslo University Hospital and University of Oslo, Kirkeveien 166, N-0407 Oslo, Norway.
Cont Lens Anterior Eye. 2017 Oct;40(5):283-292. doi: 10.1016/j.clae.2017.04.002. Epub 2017 May 24.
Development of ex vivo model to study pathogenesis, inflammation and treatment modalities for pterygium.
Pterygium obtained from surgery was cultivated (3 months). Gravitational attachment method using viscoelastic facilitated adherence of graft and outgrowing cells. Medium contained serum as the only growth supplement with no use of scaffolds. Surface profiling of the multi-layered cells for hematopoietic- and mesenchymal stem cell markers was performed. Examination of cells by immunohistochemistry using pluripotency, oxidative stress, stemness, migration and proliferation, epithelial and secretory markers was performed. The effect of anti-proliferative agent Mitomycin C upon secretion of pro-inflammatory cytokines IL-6 and IL-8 was assessed.
Cells showed high expression of migration- (CXCR4), secretory- (MUC1, MUC4) and oxidative damage- (8-OHdG) markers, and low expression of hypoxia- (HIF-1α) and proliferation- (Ki-67) markers. Moderate and low expression of the pluripotency markers (Vimentin and ΔNp63) was present, respectively, while the putative markers of stemness (Sox2, Oct4, ABCG-2) and epithelial cell markers- (CK19, CK8-18) were weak. The surface marker profile of the outgrowing cells revealed high expression of the hematopoietic marker CD47, mesenchymal markers CD90 and CD73, minor or less positivity for the hematopoietic marker CD34, mesenchymal marker CD105, progenitor marker CD117 and attachment protein markers while low levels of IL-6 and IL-8 secretion ex vivo, were inhibited upon Mitomycin C treatment.
Ex vivo tissue engineered pterygium consists of a mixture of cells of different lineage origin, suitable for use as a disease model for studying pathogenesis ex vivo, while opening possibilities for new treatment and prevention modalities.
建立体外模型以研究翼状胬肉的发病机制、炎症及治疗方式。
取自手术的翼状胬肉进行培养(3个月)。采用粘性弹性引力附着法促进移植物和生长细胞的粘附。培养基中仅含血清作为唯一生长补充剂,不使用支架。对多层细胞进行造血和间充质干细胞标志物的表面分析。使用多能性、氧化应激、干性、迁移和增殖、上皮和分泌标志物通过免疫组织化学对细胞进行检测。评估抗增殖剂丝裂霉素C对促炎细胞因子IL-6和IL-8分泌的影响。
细胞显示迁移标志物(CXCR4)、分泌标志物(MUC1、MUC4)和氧化损伤标志物(8-OHdG)高表达,缺氧标志物(HIF-1α)和增殖标志物(Ki-67)低表达。多能性标志物(波形蛋白和ΔNp63)分别呈中度和低度表达,而干性假定标志物(Sox2、Oct4、ABCG-2)和上皮细胞标志物(CK19、CK8-18)表达较弱。生长细胞的表面标志物分析显示造血标志物CD47、间充质标志物CD90和CD73高表达,造血标志物CD34、间充质标志物CD105、祖细胞标志物CD117和附着蛋白标志物呈弱阳性或低阳性,而体外IL-6和IL-8分泌水平较低,丝裂霉素C处理后受到抑制。
体外组织工程化翼状胬肉由不同谱系来源的细胞混合物组成,适合用作体外研究发病机制的疾病模型,同时为新的治疗和预防方式开辟了可能性。
