Controlling differentiation of stem cells via bioactive disordered cues†

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Yujie Zhang, Murielle Rémy, Evgeny Apartsin, Emilie Prouvé, Cécile Feuillie, Christine Labrugère, Nithavong Cam and Marie-Christine Durrieu
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引用次数: 0

Abstract

Ideal bone tissue engineering is to induce bone regeneration through the synergistic integration of biomaterial scaffolds, bone progenitor cells, and bone-forming factors. Biomimetic scaffolds imitate the native extracellular matrix (ECM) and are often utilized in vitro as analogues of the natural ECM to facilitate investigations of cell–ECM interactions and processes. In vivo, the cellular microenvironment has a crucial impact on regulating cell behavior and functions. A PET surface was activated and then functionalized with mimetic peptides to promote human mesenchymal stem cell (hMSC) adhesion and differentiation into an osteogenic lineage. Spray technology was used to randomly micropattern peptides (RGD and BMP-2 mimetic peptides) on the PET surface. The distribution of the peptides grafted on the surface, the roughness of the surfaces and the chemistry of the surfaces in each step of the treatment were ascertained by atomic force microscopy, fluorescence microscopy, time-of-flight secondary ion mass spectrometry, Toluidine Blue O assay, and X-ray photoelectron spectroscopy. Subsequently, cell lineage differentiation was evaluated by quantifying the expression of immunofluorescence markers: osteoblast markers (Runx-2, OPN) and osteocyte markers (E11, DMP1, and SOST). In this article, we hypothesized that a unique combination of bioactive micro/nanopatterns on a polymer surface improves the rate of morphology change and enhances hMSC differentiation. In DMEM, after 14 days, disordered micropatterned surfaces with RGD and BMP-2 led to a higher osteoblast marker expression than surfaces with a homogeneous dual peptide conjugation. Finally, hMSCs cultured in osteogenic differentiation medium (ODM) showed accelerated cell differentiation. In ODM, our results highlighted the expression of osteocyte markers when hMSCs were seeded on PET surfaces with random micropatterns.

Abstract Image

通过生物活性紊乱线索控制干细胞分化
理想的骨组织工程是通过生物材料支架、骨祖细胞和骨形成因子的协同整合来诱导骨再生。仿生支架模仿天然细胞外基质(ECM),通常在体外用作天然ECM的类似物,以促进细胞- ECM相互作用和过程的研究。在体内,细胞微环境对调节细胞行为和功能具有至关重要的影响。PET表面被激活,然后被模拟肽功能化,以促进人间充质干细胞(hMSC)的粘附和向成骨谱系的分化。采用喷雾技术在PET表面随机喷涂RGD和BMP-2模拟肽。通过原子力显微镜、荧光显微镜、飞行时间二次离子质谱法、甲苯胺蓝O测定法和x射线光电子能谱法确定了接枝在表面上的肽的分布、表面的粗糙度和每一步处理的表面化学性质。随后,通过量化免疫荧光标记的表达来评估细胞谱系分化:成骨细胞标记(Runx-2, OPN)和骨细胞标记(E11, DMP1和SOST)。在这篇文章中,我们假设聚合物表面生物活性微/纳米模式的独特组合提高了形态变化的速度,并增强了hMSC分化。在DMEM中,14天后,含有RGD和BMP-2的无序微图案表面比具有均匀双肽偶联的表面导致更高的成骨细胞标志物表达。最后,在成骨分化培养基(ODM)中培养的hMSCs表现出加速的细胞分化。在ODM中,我们的结果强调了骨细胞标记物的表达,当hMSCs被播种在PET表面随机微模式时。
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来源期刊
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
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