Hepatocellular engineering via acellular cadherin-derived microinterfaces

T. Brieva, P. Moghe
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Abstract

The development of cell-based therapies for liver failure relies on the availability of scaffolds that support high levels of cellular function. In this work, we functionalize biomaterial surfaces using a novel cell-based ligand as an alternative to traditional extracellular matrix-derived ligands. Initial studies in a model coculture system indicate that E-cadherin, a key cell-cell adhesion molecule present on hepatocytes, enhances liver-specific function when presented by chaperone cells. We then investigate the behavior of hepatocytes on acellular cadherin-presenting immobilized microparticle-based biomaterials. Biological activity of acellular cadherins is ensured by appending to the extracellular domain of E-cadherin an immunoglobulin Fc region, which induces dimerization and specifically adheres to a Protein A coating on the microbeads. Hepatocellular function was elevated on these surfaces as compared to the control, Fc presenting surfaces. Both surfaces exhibited similar cell adhesion and morphogenesis, suggesting that induction of hepatocyte function by cadherins was due to signaling activities rather than adhesive activities. Overall, we have demonstrated that functionalization of biomaterials with acellular cadherins is a powerful way to induce hepatocyte function.
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通过脱细胞钙粘蛋白衍生的微界面进行肝细胞工程
肝衰竭的细胞疗法的发展依赖于支持高水平细胞功能的支架的可用性。在这项工作中,我们使用一种新的基于细胞的配体来替代传统的细胞外基质来源的配体,使生物材料表面功能化。coculture系统模型的初步研究表明,钙粘蛋白,一个关键信息粘附分子存在于肝细胞,增强肝脏特异性功能时提出的女伴细胞。然后我们调查的行为在非细胞cadherin-presenting肝细胞固定化microparticle-based生物材料。脱细胞钙粘蛋白的生物活性是通过附着在e -钙粘蛋白的细胞外结构域的免疫球蛋白Fc区域来保证的,该区域诱导二聚化并特异性地粘附在微珠上的蛋白a涂层上。与对照的Fc提呈表面相比,这些表面上的肝细胞功能升高。两个表面表现出相似的细胞粘附和形态发生,表明钙粘蛋白诱导肝细胞功能是由于信号活性而不是粘附活性。总的来说,我们已经证明,功能化生物材料的非细胞钙粘素是一种强大的方法诱导肝细胞的功能。
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