Colombini Alessandra, Lopa Silvia, Ceriani Cristina, Lovati Arianna B, Croiset Samantha J, Di Giancamillo Alessia, Lombardi Giovanni, Banfi Giuseppe, Moretti Matteo
1 Laboratory of Experimental Biochemistry and Molecular Biology, IRCCS Galeazzi Orthopaedic Institute , Milan, Italy .
Tissue Eng Part A. 2015 Feb;21(3-4):793-802. doi: 10.1089/ten.TEA.2014.0279. Epub 2014 Oct 23.
The intervertebral disc (IVD) presents a limited self-repair ability and cell-based therapies have been suggested to prevent or treat IVD lesions. Fibrin-based scaffolds as cell carriers are promising candidates in IVD tissue engineering, thanks to their ability to be easily delivered into the defect and to adapt to the lesion shape, to support/retain the injected cells into the implantation site and to favor the production of a suitable extracellular matrix (ECM). We evaluated the in vitro and in vivo behavior of human nucleus pulposus (NP) and annulus fibrosus (AF) cells in a clinical-grade collagen-enriched fibrin that has never been tested before for orthopedic applications, comparing it with clinical-grade fibrin. The survival of IVD cells seeded within fibrin or collagen-enriched fibrin and the ECM synthesis were evaluated by biochemical, immunohistochemical, and transcriptional analyses, prior and after subcutaneous implantation of the gels in nude mice. After 28 days of implantation, NP and AF cells were still detectable within explants, produced tissue-specific ECM, and showed a higher content of glycosaminoglycans (GAGs) and type I and II collagen compared to gels before implantation. Both the fibrin gels, enriched or not with collagen, seemed to be suitable for the culture of AF cells, being able to support the homogeneous synthesis of type I collagen, characteristic of the native fibrocartilaginous AF tissue. Differently, fibrin alone was a more suitable matrix for NP culture, supporting the homogeneous deposition of GAGs and type II collagen. In conclusion, our results suggest to combine AF cells with fibrin, enriched or not with collagen, and NP cells with fibrin alone to maintain the typical features of these cell populations, indicating these clinical-grade materials as viable options in cell-based treatments for IVD lesions.
椎间盘(IVD)的自我修复能力有限,因此有人提出基于细胞的疗法来预防或治疗IVD损伤。基于纤维蛋白的支架作为细胞载体在IVD组织工程中是很有前景的候选者,这得益于它们能够轻松地递送至缺损处并适应损伤形状,将注入的细胞支持/保留在植入部位,并有利于产生合适的细胞外基质(ECM)。我们评估了人髓核(NP)和纤维环(AF)细胞在临床级富含胶原蛋白的纤维蛋白中的体外和体内行为,这种纤维蛋白此前从未用于骨科应用测试,我们将其与临床级纤维蛋白进行了比较。在将凝胶皮下植入裸鼠之前和之后,通过生化、免疫组织化学和转录分析评估了接种在纤维蛋白或富含胶原蛋白的纤维蛋白中的IVD细胞的存活率和ECM合成。植入28天后,在外植体中仍可检测到NP和AF细胞,它们产生了组织特异性ECM,与植入前的凝胶相比,糖胺聚糖(GAG)以及I型和II型胶原蛋白的含量更高。两种纤维蛋白凝胶,无论是否富含胶原蛋白,似乎都适合培养AF细胞,能够支持I型胶原蛋白的均匀合成,这是天然纤维软骨性AF组织的特征。不同的是,单独的纤维蛋白是更适合培养NP细胞的基质,能够支持GAG和II型胶原蛋白的均匀沉积。总之,我们的结果表明,将AF细胞与富含或不富含胶原蛋白的纤维蛋白相结合,将NP细胞与单独的纤维蛋白相结合,以维持这些细胞群体的典型特征,表明这些临床级材料是基于细胞治疗IVD损伤的可行选择。
