Department of Cardiovascular Surgery, Medical Faculty, Heinrich Heine University, Moorenstr. 5, D-40225, Duesseldorf, Germany.
Biomed Mater. 2019 Apr 5;14(3):035014. doi: 10.1088/1748-605X/ab0791.
Calcific aortic valve disease (CAVD) is the most common acquired heart valve disease with complex underlying pathomechanisms that are yet not fully understood. Three-dimensional (3D) cell culture models as opposed to conventional two-dimensional (2D) techniques may reveal new aspects of CAVD and serve as a transitional platform between conventional 2D cell culture and in vivo experiments.
Here we report on fabrication and characterization of a novel 3D hydrogel derived from cell-free native aortic valves. A detailed analysis containing protein composition, rheological behavior, cytotoxic and proliferative effects as well as results of 3D cell culture experiments are presented. Moreover, this aortic valve derived hydrogel (AVdH) is compared to commercially available biological extracellular matrix (ECM) components to evaluate and classify AVdH with respect to other currently used ECM solutions, i.e. Collagen type I and Matrigel.
On the biochemical level, a complex composition of native proteins was detected. Using different techniques, including mass spectrometry with Gene Ontology network and enrichment analysis, different fundamental biological functions of AVdH were identified, including peptidase-, peptidase inhibitor-, growth- and binding activity. No cytotoxic effects were detected and AVdH showed positive effects on cell growth and proliferation in vitro when compared to Collagen type I and Matrigel.
These results suggest AVdH as an organotypic ECM supporting sophisticated 3D cell culture model studies, while mimicking the native environment of the aortic valve to a greater level for enhanced in vitro analyses.
钙化性主动脉瓣疾病(CAVD)是最常见的获得性心脏瓣膜病,其潜在的病理机制复杂,尚未完全了解。与传统的二维(2D)技术相比,三维(3D)细胞培养模型可能揭示 CAVD 的新方面,并作为传统 2D 细胞培养和体内实验之间的过渡平台。
在这里,我们报告了一种新型 3D 水凝胶的制造和特性,该水凝胶源自无细胞的天然主动脉瓣。我们进行了详细的分析,包括蛋白质组成、流变行为、细胞毒性和增殖效果以及 3D 细胞培养实验的结果。此外,将这种源自主动脉瓣的水凝胶(AVdH)与市售的生物细胞外基质(ECM)成分进行比较,以评估和分类 AVdH 相对于其他当前使用的 ECM 解决方案,即胶原 I 型和 Matrigel。
在生化水平上,检测到天然蛋白的复杂组成。使用不同的技术,包括带有基因本体论网络和富集分析的质谱分析,确定了 AVdH 的不同基本生物学功能,包括肽酶、肽酶抑制剂、生长和结合活性。未检测到细胞毒性,与胶原 I 型和 Matrigel 相比,AVdH 在体外对细胞生长和增殖具有积极影响。
这些结果表明 AVdH 作为一种器官型 ECM,支持复杂的 3D 细胞培养模型研究,同时在更大程度上模拟主动脉瓣的天然环境,以增强体外分析。
