基于整体活性的蛋白质剖析 (IABPP) 方法,用于高通量测定蛋白质靶点对小分子的敏感性

Vivian S., Lin, Aaron T., Wright, Stephen J., Callister, Leo J., Gorham, Gerard X., Lomas, Agne, Sveistyte, John T., Melchior, Priscila M., Lalli, Chathuri J., Kombala, Tong, Zhang, Vanessa L., Paurus
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引用次数: 0

摘要

基于活性的蛋白质分析(ABPP)是一种化学蛋白质组学技术,它利用化学探针在复杂的蛋白质组中选择性地共价标记活性酶。竞争性 ABPP 涉及用感兴趣的分析物处理活性蛋白质组,特别适用于分析小分子如何影响特定蛋白质的活性。高通量工作流程的进步使得在各种生物系统和处理过程中生成大量竞争性 ABPP 数据成为可能,从而使这种方法在表征受药物或化学暴露等扰动影响的共有和独特蛋白质方面极具吸引力。要有效利用竞争性 ABPP 方法了解相关化学品的潜在不良影响,可能需要广泛的浓度范围,尤其是对于可能缺乏毒性数据的化学品。在这项研究中,我们提出了一种整体竞争性 ABPP 方法,它能在广泛的浓度范围内区分有机磷(OP)模型--对氧磷(paraoxon)的目标敏感性。利用之前开发的 OP-ABP,我们优化了 ABPP 样品串联质量标签 (TMT) 多路复用的条件,并比较了在不同的对羟基苯甲酸酯浓度下采用离散样品的传统竞争性 ABPP 与在相同浓度范围内采用集合样品的 ABPP。结果表明,竞争样本积分强度的微小差异与较大差异可分别用于区分低灵敏度与高灵敏度蛋白质,而无需增加样本总数。我们设想 ABPP 积分法将为更快速地筛选各种化学物质提供一种手段,以识别高灵敏度和低灵敏度的蛋白质靶标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An integral activity-based protein profiling (IABPP) method for higher throughput determination of protein target sensitivity to small molecules
Activity-based protein profiling (ABPP) is a chemoproteomic technique that uses chemical probes to label active enzymes selectively and covalently in complex proteomes. Competitive ABPP, which involves treatment of the active proteome with an analyte of interest, is especially powerful for profiling how small molecules impact specific protein activities. Advances in higher throughput workflows have made it possible to generate extensive competitive ABPP data across various biological systems and treatments, making this approach highly appealing for characterizing shared and unique proteins affected by perturbations such as drug or chemical exposures. To use the competitive ABPP approach effectively to understand potential adverse effects of chemicals of concern, a wide range of concentrations may be needed, particularly for chemicals that may lack toxicity data. In this work, we present an integral competitive ABPP method that enables target sensitivity differentiation across a wide range of concentrations for the model organophosphate (OP), paraoxon. Using previously developed OP-ABPs, we optimized conditions for tandem mass tag (TMT) multiplexing of ABPP samples and compared conventional competitive ABPP involving discrete samples at various paraoxon concentrations with pooling of samples across that same concentration range. The results show that small vs. large differences in integral intensities for the competitive sample can be used to distinguish low vs. high sensitivity proteins, respectively, without increasing the overall number of samples. We envision the integral ABPP method will provides a means to screen diverse chemicals more rapidly to identify both highly sensitive and less sensitive protein targets.
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