Institute for Bioengineering of Catalonia (IBEC) , Barcelona Institute of Science and Technology (BIST) , 08028 Barcelona , Spain.
ACS Appl Mater Interfaces. 2019 Jan 30;11(4):3666-3678. doi: 10.1021/acsami.8b17138. Epub 2019 Jan 16.
Installing bioactivity on metallic biomaterials by mimicking the extracellular matrix (ECM) is crucial for stimulating specific cellular responses to ultimately promote tissue regeneration. Fibronectin is an ECM protein commonly used for biomaterial functionalization. The use of fibronectin recombinant fragments is an attractive alternate to the use of full-length fibronectin because of the relatively low cost and facility of purification. However, it is necessary to combine more than one fragment, for example, the cell attachment site and the heparin binding II (HBII), either mixed or in one molecule, to obtain complete activity. In the present study, we proposed to install adhesion capacity to the HBII fragment by an RGD gain-of-function DNA mutation, retaining its cell differentiation capacity and thereby producing a small and very active protein fragment. The novel molecule, covalently immobilized onto titanium surfaces, maintained the growth factor-binding capacity and stimulated cell spreading, osteoblastic cell differentiation, and mineralization of human mesenchymal stem cells compared to the HBII native protein. These results highlight the potential capacity of gain-of-function DNA mutations in the design of novel molecules for the improvement of osseointegration properties of metallic implant surfaces.
通过模拟细胞外基质(ECM)在金属生物材料上安装生物活性对于刺激特定的细胞反应以最终促进组织再生至关重要。纤连蛋白是一种常用于生物材料功能化的 ECM 蛋白。由于成本相对较低且易于纯化,因此使用纤连蛋白重组片段是替代全长纤连蛋白的一种有吸引力的方法。然而,有必要将多个片段(例如细胞附着位点和肝素结合 II(HBII))组合在一起,无论是混合还是在一个分子中,以获得完整的活性。在本研究中,我们提出通过 RGD 功能获得性 DNA 突变来安装对 HBII 片段的粘附能力,从而保留其细胞分化能力,从而产生小而非常活跃的蛋白片段。与 HBII 天然蛋白相比,共价固定在钛表面上的新型分子保持了生长因子结合能力,并刺激了人骨髓间充质干细胞的细胞扩展、成骨细胞分化和矿化。这些结果突出了功能获得性 DNA 突变在设计用于改善金属植入物表面的骨整合特性的新型分子中的潜在能力。
