A Mechanically Stimulated Co-culture in 3-Dimensional Composite Scaffolds Promotes Osteogenic and Anti-osteoclastogenic Activity and M2 Macrophage Polarization.
Georgia-Ioanna Kontogianni, Konstantinos Loukelis, Amedeo Franco Bonatti, Elisa Batoni, Carmelo De Maria, Giovanni Vozzi, Raasti Naseem, Kenneth Dalgarno, Heungsoo Shin, Chiara Vitale-Brovarone, Maria Chatzinikolaidou
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Abstract
Bone is subjected to a plethora of mechanical stresses, which have been found to directly influence the equilibrium between bone resorption and formation. Taking this into account, we present herein a novel biomimicking 3-dimensional model that applies cyclic uniaxial compression onto cells co-cultured on 3-dimensionally printed scaffolds consisting of poly L-lactic acid/poly(ε-caprolactone)/poly(3-hydroxybutyrate-co-3-hydroxyvalerate)/Sr-nanohydroxyapatite. The aim is to investigate how compression can modulate the balance between osteogenesis and osteoclastogenesis in co-culture, as well as the polarization of macrophages. One of the key aspects of the current study is the unprecedented development of a growth-factor-free co-culture, sustainable solely by the cross talk between human bone marrow mesenchymal stem cells and human peripheral blood mononuclear cells for their survival and osteogenic/osteoclastogenic differentiation capacity, respectively. Real-time polymerase chain reaction gene expression analysis of the mechanically stimulated constructs revealed up-regulation of the osteogenesis-related markers osteocalcin, osteoprotegerin, and runt-related transcription factor 2, with concurrent down-regulation of the osteoclastogenic markers dendritic-cell-specific transmembrane protein, nuclear factor of activated T cells 1, and tartrate acid phosphatase. The secretion of the receptor activator of nuclear factor kappa-Β ligand and macrophage colony-stimulating factor, as determined from enzyme-linked immunosorbent assay, was also found to depict lower levels compared to static conditions. Finally, macrophage polarization was examined via confocal imaging of tumor necrosis factor-α and interleukin-10 secretion levels, as well as through nitric oxide synthase and arginase 1 markers' gene expression, with the results indicating stronger commitment toward the M2 phenotype after mechanical stimulation.
骨受到过多的机械应力,这已被发现直接影响骨吸收和形成之间的平衡。考虑到这一点,我们提出了一种新的仿生三维模型,该模型对在聚l -乳酸/聚(ε-己内酯)/聚(3-羟基丁酸酯-co-3-羟戊酸酯)/ sr -纳米羟基磷灰石组成的三维打印支架上共培养的细胞施加循环单轴压缩。目的是研究压缩如何调节共培养中成骨和破骨细胞生成之间的平衡,以及巨噬细胞的极化。当前研究的一个关键方面是前所未有的无生长因子共培养的发展,仅通过人骨髓间充质干细胞和人外周血单个核细胞之间的相互作用来维持其生存和成骨/破骨分化能力。机械刺激构建体的实时聚合酶链反应基因表达分析显示,成骨相关标志物骨钙素、骨保护素和矮子相关转录因子2上调,破骨标志物树突状细胞特异性跨膜蛋白、活化T细胞核因子1和酒石酸磷酸酶下调。核因子kappa-Β配体受体激活剂和巨噬细胞集落刺激因子的分泌,通过酶联免疫吸附测定,也发现与静态条件相比,其水平较低。最后,通过肿瘤坏死因子-α和白细胞介素-10分泌水平的共聚焦成像以及一氧化氮合酶和精氨酸酶1标记物的基因表达来检测巨噬细胞极化,结果表明机械刺激后巨噬细胞对M2表型的承诺更强。
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