Jovic Thomas H, Thomson Emman J, Jones Nick, Thornton Catherine A, Doak Shareen H, Whitaker Iain S
Reconstructive Surgery and Regenerative Medicine Research Centre, Institute of Life Sciences, Swansea University, Swansea, United Kingdom.
Welsh Centre for Burns and Plastic Surgery, Morriston Hospital, Swansea, United Kingdom.
Front Bioeng Biotechnol. 2024 Sep 26;12:1421111. doi: 10.3389/fbioe.2024.1421111. eCollection 2024.
The ability to bioprint facial cartilages could revolutionise reconstructive surgery, but identifying the optimum cell source remains one of the great challenges of tissue engineering. Tissue specific stem cells: chondroprogenitors, have been extracted previously using preferential adhesion to fibronectin based on the expression of CD49e: a perceived chondroprogenitor stem cell marker present on <1% of cartilage cells. This study sought to determine whether these fibronectin-adherent chondroprogenitor cells could be exploited for cartilage tissue engineering applications in isolation, or combined with differentiated chondrocytes.
Nasoseptal cartilage samples from 20 patients (10 male, 10 female) were digested to liberate cartilage-derived cells (CDCs) from extracellular matrix. Total cell number was counted using the Trypan Blue exclusion assay and added to fibronectin coated plates for 20 min, to determine the proportion of fibronectin-adherent (FAC) and non-adherent cells (NFACs). All populations underwent flow cytometry to detect mesenchymal stem/progenitor cell markers and were cultured in osteogenic, chondrogenic and adipogenic media to determine trilineage differentiation potential. Cell adherence and growth kinetics of the different populations were compared using iCELLigence growth assays. Chondrogenic gene expression was assessed using RT-qPCR for Type 2 collagen, aggrecan and SOX9 genes. Varying proportions of NFAC and FACs were cultured in alginate beads to assess tissue engineering potential.
52.6% of cells were fibronectin adherent in males and 57.7% in females, yet on flow cytometrical analysis, only 0.19% of cells expressed CD49e. Moreover, all cells (CDC, FAC and NFACs) demonstrated an affinity for trilineage differentiation by first passage and the expression of stem/progenitor cell markers increased significantly from digest to first passage (CD29, 44, 49e, 73 and 90, p < 0.0001). No significant differences were seen in adhesion or growth rates. Collagen and aggrecan gene expression was higher in FACs than CDCs (2-fold higher, p = 0.008 and 0.012 respectively), but no differences in chondrogenic potential were seen in any cell mixtures in 3D culture models.
The fibronectin adhesion assay does not appear to reliably isolate a chondroprogenitor cell population from nasoseptal cartilage, and these cells confer no advantageous properties for cartilage tissue engineering. Refinement of cell isolation methods and chondroprogenitor markers is warranted for future nasoseptal cartilage tissue engineering efforts.
生物打印面部软骨的能力可能会彻底改变重建外科手术,但确定最佳细胞来源仍然是组织工程领域的重大挑战之一。组织特异性干细胞:软骨祖细胞,此前已通过基于CD49e表达对纤连蛋白的优先黏附作用提取出来,CD49e是一种存在于不到1%的软骨细胞上的公认软骨祖细胞干细胞标志物。本研究旨在确定这些纤连蛋白黏附的软骨祖细胞是否可单独用于软骨组织工程应用,或与分化的软骨细胞联合使用。
从20名患者(10名男性,10名女性)的鼻中隔软骨样本中进行消化,以从细胞外基质中释放软骨来源细胞(CDC)。使用台盼蓝排斥试验计数总细胞数,并将其添加到纤连蛋白包被的培养板中20分钟,以确定纤连蛋白黏附细胞(FAC)和非黏附细胞(NFAC)的比例。所有细胞群体均进行流式细胞术检测间充质干/祖细胞标志物,并在成骨、软骨生成和脂肪生成培养基中培养,以确定三系分化潜能。使用iCELLigence生长测定法比较不同细胞群体的细胞黏附及生长动力学。使用RT-qPCR评估2型胶原蛋白、聚集蛋白聚糖和SOX9基因的软骨生成基因表达。将不同比例的NFAC和FAC培养在藻酸盐珠中,以评估组织工程潜能。
男性中有52.6%的细胞黏附于纤连蛋白,女性中有57.7%,然而在流式细胞术分析中,只有0.19%的细胞表达CD49e。此外,所有细胞(CDC、FAC和NFAC)在首次传代时均表现出对三系分化的亲和力,并且从消化到首次传代,干/祖细胞标志物的表达显著增加(CD29、44、49e、73和90,p < 0.0001)。在黏附或生长速率方面未观察到显著差异。FAC中胶原蛋白和聚集蛋白聚糖基因的表达高于CDC(分别高2倍,p = 0.008和0.012),但在3D培养模型中的任何细胞混合物中均未观察到软骨生成潜能的差异。
纤连蛋白黏附试验似乎无法可靠地从鼻中隔软骨中分离出软骨祖细胞群体,并且这些细胞对于软骨组织工程没有赋予有利特性。未来鼻中隔软骨组织工程工作有必要改进细胞分离方法和软骨祖细胞标志物。
