开发 pSmads 定量的自动化高含量免疫荧光测定:使用抑制 BMP/TGF-β 通路的药物进行概念验证

IF 3.2 3区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Valia Khodr, Laura Clauzier, Paul Machillot, Adrià Sales, Elisa Migliorini, Catherine Picart
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引用次数: 0

摘要

引言 骨形态发生蛋白(BMPs)和转化生长因子(TGF-β)是 TGF-β 超家族的成员,在多个生理和病理过程中发挥作用。已知这些因子在体内分别与 BMP 和 TGF-β 受体结合,从而诱导 Smad(pSmad)转录因子磷酸化。对这一途径的研究一般采用 Western 印迹和荧光素酶生物发光法,但存在一定的局限性。 目的 在这项工作中,我们开发并优化了一种高通量检测方法,利用免疫荧光(IF)研究 pSmad 通路,以替代 Western 印迹。我们的目标是克服经典免疫荧光测定在图像采集、分析和定量方面通常面临的技术挑战。 方法 我们使用 C2C12 细胞作为细胞模型。细胞受到 BMP-2 和 TGF-β1 的刺激,BMP-2 和 TGF-β1 以溶液(可溶性)或通过呈现生长因子(GF)的生物材料(即 "基质结合 "方式)的形式传递。我们优化了图像采集参数、分析方法以及使用 IF 对 pSmads 进行定量的方法,这些方法适用于在两种支撑物上培养的细胞:裸玻璃和由生物聚合物透明质酸和聚赖氨酸自组装而成的仿生物涂层。 结果 我们对在 96 孔微孔板中培养的细胞在可溶性和基质结合型 BMP-2 和 TGF-β1 作用下 pSmad 的表达进行了高含量动力学研究。基于 IF 的检测方法的检测限与 Western 印迹相似。此外,我们还为在配体/受体相互作用导致特定信号通路参与的条件下使用 BMP 和 TGF-β 受体抑制剂进行药物测试提供了概念验证。总之,我们的研究结果为未来的细胞信号传导机理研究和使用成像方法进行单细胞水平的研究提供了前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Development of an automated high-content immunofluorescence assay of pSmads quantification: Proof-of-concept with drugs inhibiting the BMP/TGF-β pathways

Development of an automated high-content immunofluorescence assay of pSmads quantification: Proof-of-concept with drugs inhibiting the BMP/TGF-β pathways

Introduction

Bone morphogenetic proteins (BMPs) and transforming growth factors (TGF-β) are members of the TGF-β superfamily, known for their roles in several physiological and pathological processes. These factors are known to bind in vivo to BMP and TGF-β receptors, respectively, which induces the phosphorylation of Smad (pSmad) transcription factors. This pathway is generally studied with Western blot and luciferase bioluminescence assay, which presents some limitations.

Purpose

In this work, we developed and optimized a high-throughput assay to study pSmad pathways using immunofluorescence (IF) as an alternative to Western blot. We aimed to overcome the technical challenges usually faced in the classical IF assay in image acquisition, analysis, and quantification.

Methods

We used C2C12 cells as a cellular model. The cells were stimulated with BMP-2 and TGF-β1 that were delivered either in solution (soluble) or via a biomaterial presenting the growth factor (GF), that is in a “matrix-bound” manner. Image acquisition parameters, analysis methods, and quantification of pSmads using IF were optimized for cells cultured on two types of supports: on bare glass and on a biomimetic coating made by self-assembly of the biopolymers hyaluronic acid and poly(l-lysine), which was crosslinked and then loaded with the GFs.

Results

We performed high-content kinetic studies of pSmad expression for cells cultured in 96-well microplates in response to soluble and matrix-bound BMP-2 and TGF-β1. The detection limit of the IF-based assay was found to be similar to Western blot. Additionally, we provide a proof-of-concept for drug testing using inhibitors of BMP and TGF-β receptors, under conditions where specific signaling pathways are engaged via the ligand/receptor interactions. Altogether, our findings offer perspectives for future mechanistic studies on cell signaling and for studies at the single cell level using imaging methods.

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来源期刊
Biotechnology Journal
Biotechnology Journal Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
2.10%
发文量
123
审稿时长
1.5 months
期刊介绍: Biotechnology Journal (2019 Journal Citation Reports: 3.543) is fully comprehensive in its scope and publishes strictly peer-reviewed papers covering novel aspects and methods in all areas of biotechnology. Some issues are devoted to a special topic, providing the latest information on the most crucial areas of research and technological advances. In addition to these special issues, the journal welcomes unsolicited submissions for primary research articles, such as Research Articles, Rapid Communications and Biotech Methods. BTJ also welcomes proposals of Review Articles - please send in a brief outline of the article and the senior author''s CV to the editorial office. BTJ promotes a special emphasis on: Systems Biotechnology Synthetic Biology and Metabolic Engineering Nanobiotechnology and Biomaterials Tissue engineering, Regenerative Medicine and Stem cells Gene Editing, Gene therapy and Immunotherapy Omics technologies Industrial Biotechnology, Biopharmaceuticals and Biocatalysis Bioprocess engineering and Downstream processing Plant Biotechnology Biosafety, Biotech Ethics, Science Communication Methods and Advances.
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