Label-free Chemical Characterization of Polarized Immune Cells in vitro and Host Response to Implanted Bio-instructive Polymers in vivo Using 3D OrbiSIMS.

Waraporn Suvannapruk, Max K Edney, Leanne E Fisher, Jeni C Luckett, Dong-Hyun Kim, David J Scurr, Amir M Ghaemmaghami, Morgan R Alexander
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Abstract

The Three-dimensional OrbiTrap Secondary Ion Mass Spectrometry (3D OrbiSIMS) is a secondary ion mass spectrometry instrument, a combination of a Time of Flight (ToF) instrument with an Orbitrap analyzer. The 3D OrbiSIMS technique is a powerful tool for metabolic profiling in biological samples. This can be achieved at subcellular spatial resolution, high sensitivity, and high mass-resolving power coupled with MS/MS analysis. Characterizing the metabolic signature of macrophage subsets within tissue sections offers great potential to understand the response of the human immune system to implanted biomaterials. Here, we describe a protocol for direct analysis of individual cells after in vitro differentiation of naïve monocytes into M1 and M2 phenotypes using cytokines. As a first step in vivo, we investigate explanted silicon catheter sections as a medical device in a rodent model of foreign body response. Protocols are presented to allow the host response to different immune instructive materials to be compared. The first demonstration of this capability illustrates the great potential of direct cell and tissue section analysis for in situ metabolite profiling to probe functional phenotypes using molecular signatures. Details of the in vitro cell approach, materials, sample preparation, and explant handling are presented, in addition to the data acquisition approaches and the data analysis pipelines required to achieve useful interpretation of these complex spectra. This method is useful for in situ characterization of both in vitro single cells and ex vivo tissue sections. This will aid the understanding of the immune response to medical implants by informing the design of immune-instructive biomaterials with positive interactions. It can also be used to investigate a broad range of other clinically relevant therapeutics and immune dysregulations. Graphical overview.

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基于3D OrbiSIMS的极化免疫细胞体外无标记化学表征及宿主对植入生物指向性聚合物的体内反应
三维轨道rap二次离子质谱仪(3D OrbiSIMS)是一种二次离子质谱仪,结合了飞行时间(ToF)仪器和轨道rap分析仪。3D OrbiSIMS技术是生物样品代谢分析的有力工具。这可以在亚细胞空间分辨率下实现,高灵敏度,高质量分辨率加上MS/MS分析。表征组织切片内巨噬细胞亚群的代谢特征,为理解人体免疫系统对植入生物材料的反应提供了巨大的潜力。在这里,我们描述了一种使用细胞因子将naïve单核细胞体外分化为M1和M2表型后对单个细胞进行直接分析的方案。作为体内实验的第一步,我们在啮齿动物的异物反应模型中研究了外植的硅导管切片作为医疗设备。方案提出,允许宿主反应不同的免疫指导材料进行比较。这种能力的首次演示说明了直接细胞和组织切片分析的巨大潜力,用于原位代谢物分析,利用分子特征探测功能表型。详细介绍了体外细胞方法、材料、样品制备和外植体处理,以及数据采集方法和数据分析管道,以实现这些复杂光谱的有用解释。该方法可用于体外单细胞和离体组织切片的原位表征。这将有助于通过告知设计具有积极相互作用的免疫指导性生物材料来理解对医疗植入物的免疫反应。它也可以用于研究广泛的其他临床相关疗法和免疫失调。图形的概述。
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