Fabrication of Homogeneous High-Density Antibody Microarrays for Cytokine Detection.

Microarrays Pub Date : 2014-12-09 DOI:10.3390/microarrays3040282

Ingeborg Hospach, Yvonne Joseph, Michaela Kathrin Mai, Nadejda Krasteva, Gabriele Nelles

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引用次数: 6

Abstract

Cytokine proteins are known as biomarker molecules, characteristic of a disease or specific body condition. Monitoring of the cytokine pattern in body fluids can contribute to the diagnosis of diseases. Here we report on the development of an array comprised of different anti-cytokine antibodies on an activated solid support coupled with a fluorescence readout mechanism. Optimization of the array preparation was done in regard of spot homogeneity and spot size. The proinflammatory cytokines Tumor Necrosis Factor alpha (TNFα) and Interleukin 6 (IL-6) were chosen as the first targets of interest. First, the solid support for covalent antibody immobilization and an adequate fluorescent label were selected. Three differently functionalized glass substrates for spotting were compared: amine and epoxy, both having a two-dimensional structure, and the NHS functionalized hydrogel (NHS-3D). The NHS-hydrogel functionalization of the substrate was best suited to antibody immobilization. Then, the optimization of plotting parameters and geometry as well as buffer media were investigated, considering the ambient analyte theory of Roger Ekins. As a first step towards real sample studies, a proof of principle of cytokine detection has been established.

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细胞因子检测用均匀高密度抗体微阵列的制备。

细胞因子蛋白被称为生物标记分子，是疾病或特定身体状况的特征。监测体液中的细胞因子模式有助于疾病的诊断。在这里，我们报告了一种由不同的抗细胞因子抗体组成的阵列，该阵列位于活化的固体载体上，并具有荧光读出机制。从光斑均匀性和光斑大小两个方面对阵列的制备进行了优化。促炎细胞因子肿瘤坏死因子α (TNFα)和白细胞介素6 (IL-6)被选为第一个感兴趣的靶点。首先，选择共价抗体固定的坚实载体和适当的荧光标记。比较了三种不同功能化的玻璃基板:胺和环氧树脂，两者都具有二维结构，以及NHS功能化水凝胶(NHS- 3d)。底物的nhs水凝胶功能化最适合于抗体固定化。然后，考虑Roger Ekins的环境分析物理论，对绘制参数和几何结构以及缓冲介质的优化进行了研究。作为真正样本研究的第一步，细胞因子检测的原理证明已经建立。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microarrays

自引率

0.00%

发文量

审稿时长

11 weeks

期刊介绍： High-Throughput (formerly Microarrays, ISSN 2076-3905) is a multidisciplinary peer-reviewed scientific journal that provides an advanced forum for the publication of studies reporting high-dimensional approaches and developments in Life Sciences, Chemistry and related fields. Our aim is to encourage scientists to publish their experimental and theoretical results based on high-throughput techniques as well as computational and statistical tools for data analysis and interpretation. The full experimental or methodological details must be provided so that the results can be reproduced. There is no restriction on the length of the papers. High-Throughput invites submissions covering several topics, including, but not limited to: Microarrays, DNA Sequencing, RNA Sequencing, Protein Identification and Quantification, Cell-based Approaches, Omics Technologies, Imaging, Bioinformatics, Computational Biology/Chemistry, Statistics, Integrative Omics, Drug Discovery and Development, Microfluidics, Lab-on-a-chip, Data Mining, Databases, Multiplex Assays.