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首页> 美国卫生研究院文献>other >Identification of IL-1β and LPS as Optimal Activators of Monolayer and Alginate-Encapsulated Mesenchymal Stromal Cell Immunomodulation Using Design of Experiments and Statistical Methods
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Identification of IL-1β and LPS as Optimal Activators of Monolayer and Alginate-Encapsulated Mesenchymal Stromal Cell Immunomodulation Using Design of Experiments and Statistical Methods

机译:实验和统计方法设计鉴定IL-1β和LPS作为单层和藻酸盐包裹的间质基质细胞免疫调节的最佳激活剂

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Induction of therapeutic mesenchymal stromal cell (MSC) function is dependent upon activating factors present in diseased or injured tissue microenvironments. These functions include modulation of macrophage phenotype via secreted molecules including prostaglandin E2 (PGE2). Many approaches aim to optimize MSC-based therapies, including preconditioning using soluble factors and cell immobilization in biomaterials. However, optimization of MSC function is usually inefficient as only a few factors are manipulated in parallel. We utilized fractional factorial design of experiments to screen a panel of 6 molecules (lipopolysaccharide [LPS], polyinosinic-polycytidylic acid [poly(I:C)], interleukin [IL]-6, IL-1β, interferon [IFN]-β, and IFN-γ), individually and in combinations, for the upregulation of MSC PGE2 secretion and attenuation of macrophage secretion of tumor necrosis factor (TNF)-α, a pro-inflammatory molecule, by activated-MSC conditioned medium (CM). We used multivariable linear regression (MLR) and analysis of covariance to determine differences in functions of optimal factors on monolayer MSCs and alginate-encapsulated MSCs (eMSCs). The screen revealed that LPS and IL-1β potently activated monolayer MSCs to enhance PGE2 production and attenuate macrophage TNF-α. Activation by LPS and IL-1β together synergistically increased MSC PGE2, but did not synergistically reduce macrophage TNF-α. MLR and covariate analysis revealed that macrophage TNF-α was strongly dependent on the MSC activation factor, PGE2 level, and macrophage donor but not MSC culture format (monolayer versus encapsulated). The results demonstrate the feasibility and utility of using statistical approaches for higher throughput cell analysis. This approach can be extended to develop activation schemes to maximize MSC and MSC-biomaterial functions prior to transplantation to improve MSC therapies.
机译:治疗性间充质基质细胞(MSC)功能的诱导取决于存在于患病或受伤的组织微环境中的激活因子。这些功能包括通过包括前列腺素E2(PGE2)在内的分泌分子调节巨噬细胞表型。许多方法旨在优化基于MSC的疗法,包括使用可溶性因子进行预处理以及将细胞固定在生物材料中。但是,MSC功能的优化通常效率不高,因为只有少数几个因素可以并行操作。我们利用分数分解设计实验来筛选一组6个分子(脂多糖[LPS],聚肌苷酸-聚胞苷酸[poly(I:C)],白介素[IL] -6,IL-1β,干扰素[IFN]-β和IFN-γ),分别通过活化的MSC条件培养基(CM)上调MSC PGE2分泌并减弱促炎分子肿瘤坏死因子(TNF)-α的巨噬细胞分泌。我们使用多变量线性回归(MLR)和协方差分析来确定单层MSC和藻酸盐封装的MSC(eMSC)上最佳因子功能的差异。筛选显示,LPS和IL-1β有效激活了单层MSC,以增强PGE2的产生并减弱巨噬细胞TNF-α。 LPS和IL-1β的激活共同增加了MSC PGE2,但没有协同减少巨噬细胞TNF-α。 MLR和协变量分析显示,巨噬细胞TNF-α强烈依赖于MSC激活因子,PGE2水平和巨噬细胞供体,但不依赖于MSC培养形式(单层与包囊)。结果证明了使用统计方法进行高通量细胞分析的可行性和实用性。可以扩展该方法以开发激活方案,以在移植之前最大化MSC和MSC生物材料的功能,以改善MSC治疗。

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