Kinase inhibitor pulldown assay (KiP) for clinical proteomics.

IF 2.8 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Alexander B Saltzman, Doug W Chan, Matthew V Holt, Junkai Wang, Eric J Jaehnig, Meenakshi Anurag, Purba Singh, Anna Malovannaya, Beom-Jun Kim, Matthew J Ellis
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引用次数: 0

Abstract

Protein kinases are frequently dysregulated and/or mutated in cancer and represent essential targets for therapy. Accurate quantification is essential. For breast cancer treatment, the identification and quantification of the protein kinase ERBB2 is critical for therapeutic decisions. While immunohistochemistry (IHC) is the current clinical diagnostic approach, it is only semiquantitative. Mass spectrometry-based proteomics offers quantitative assays that, unlike IHC, can be used to accurately evaluate hundreds of kinases simultaneously. The enrichment of less abundant kinase targets for quantification, along with depletion of interfering proteins, improves sensitivity and thus promotes more effective downstream analyses. Multiple kinase inhibitors were therefore deployed as a capture matrix for kinase inhibitor pulldown (KiP) assays designed to profile the human protein kinome as broadly as possible. Optimized assays were initially evaluated in 16 patient derived xenograft models (PDX) where KiP identified multiple differentially expressed and biologically relevant kinases. From these analyses, an optimized single-shot parallel reaction monitoring (PRM) method was developed to improve quantitative fidelity. The PRM KiP approach was then reapplied to low quantities of proteins typical of yields from core needle biopsies of human cancers. The initial prototype targeting 100 kinases recapitulated intrinsic subtyping of PDX models obtained from comprehensive proteomic and transcriptomic profiling. Luminal and HER2 enriched OCT-frozen patient biopsies subsequently analyzed through KiP-PRM also clustered by subtype. Finally, stable isotope labeled peptide standards were developed to define a prototype clinical method. Data are available via ProteomeXchange with identifiers PXD044655 and PXD046169.

用于临床蛋白质组学的激酶抑制剂下拉测定(KiP)。
蛋白激酶经常在癌症中失调和/或突变,是治疗的重要靶点。准确的定量至关重要。在乳腺癌治疗中,蛋白激酶 ERBB2 的鉴定和定量对于治疗决策至关重要。虽然免疫组织化学(IHC)是目前的临床诊断方法,但它只能进行半定量分析。与 IHC 不同的是,基于质谱的蛋白质组学可提供定量检测方法,可同时准确评估数百种激酶。对含量较低的激酶靶标进行富集定量,同时去除干扰蛋白,可提高灵敏度,从而促进更有效的下游分析。因此,多种激酶抑制剂被用作激酶抑制剂下拉(KiP)测定的捕获基质,旨在尽可能广泛地剖析人类蛋白质激酶组。最初在 16 个患者衍生异种移植模型(PDX)中对优化的检测方法进行了评估,在这些模型中,KiP 发现了多种不同表达和生物相关的激酶。通过这些分析,开发出了一种优化的单次平行反应监测(PRM)方法,以提高定量保真度。随后,PRM KiP 方法被重新应用于人类癌症核心针活检中典型的低量蛋白质。最初的原型针对 100 个激酶,再现了通过全面蛋白质组和转录组分析获得的 PDX 模型的内在亚型。随后通过 KiP-PRM 分析的富含 Luminal 和 HER2 的 OCT 冷冻患者活检组织也按亚型进行了分类。最后,还开发了稳定同位素标记肽标准,以确定一种原型临床方法。数据可通过蛋白质组交换(ProteomeXchange)获得,标识符为 PXD044655 和 PXD046169。
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来源期刊
Clinical proteomics
Clinical proteomics BIOCHEMICAL RESEARCH METHODS-
CiteScore
5.80
自引率
2.60%
发文量
37
审稿时长
17 weeks
期刊介绍: Clinical Proteomics encompasses all aspects of translational proteomics. Special emphasis will be placed on the application of proteomic technology to all aspects of clinical research and molecular medicine. The journal is committed to rapid scientific review and timely publication of submitted manuscripts.
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