Abstract 1107: Precision phosphoproteomic analysis in Chr22q11.2 amplified NSCLC cells reveals distinct signaling corruption and response to Aurora kinase B inhibition

Arran Dokal, J. Bertran-Alamillo, E. Wilkes, H. Lewis, A. Giménez-Capitán, C. Greenhalgh, Ruth Osuntola, Maruan Higazi-Vega, Shona Ellison, V. Rajeeve, G. Fabbri, U. Polanska, J. E. Pease, Pedro Rodriguez-Cutillas, J. Urosevic, M. Molina-Vila, D. Britton, Jon Travers
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引用次数: 1

Abstract

Background: NSCLC cells carrying EGFR mutations can gain resistance to cognate TKIs through amplification of Chr22q11.2 (Chr22amp), a chromosome segment containing CRKL. This also specifically associates with exquisite sensitivity to inhibitors of Aurora Kinase B (AZD2811), potentially mediated by other Chr22 genes. Furthermore, a phenotypic rewiring occurs in the response to AZD2811, from a senescent polyploidy in wildtype (WT) cells to apoptosis in Chr22amp cells. Here, we aimed to elucidate the underlying signaling alterations in this background by phosphoproteomic pathway analysis. Methods: The EGFR mutant cell line PC9 and 8 TKI resistant derivatives were profiled (4 Chr22amp and 4 WT). Kinetics of response to AZD2811 (100nM) and osimertinib (160 nM) were identified by flow cytometry. Samples (n=3) were prepared for phosphoproteomics, after 6, 24, and 48 h AZD2811 and 1 h osimertinib, with time matched controls. Cells were washed and lysed in urea, then digested with trypsin. Phosphorylated peptides were enriched with TiO2 and analyzed by Orbitrap LC-MS/MS. Computational analyses quantified peptides across samples. KScanTM bioinformatics identified differential phosphopeptides between Chr22amp and WT to determine kinase substrate profiles by KSEA, putative downstream targets (PDT) and differential compound target activity markers (CTAM). Results: Single cell time-course analysis of phenotypic response to AZD2811 in Chr22amp cells showed that >60% of cells become Annexin V+ by 48 h post-treatment. We took earlier timepoints of 6, 24 and 48 h post treatment. We focused the phosphoproteomic analysis on three comparisons of Chr22amp amplified cells to: 1) the basal signaling state compared to WT; 2) the signaling response to osimertinib in parental PC9; and 3) the altered kinetics of signaling in response to AZD2811 compared to WT. At the basal level, Chr22amp had CK1e, CDK2, p38a substrates differentially enriched, and MTOR inhibitor and Aurora B inhibitor modulated sites (p Conclusions: Here, we identified significant pathway deregulation in Chr22amp cells that subverted EGFR inhibition and enhanced sensitivity to AZD2811. Intriguingly, we detected enhanced Aurora B activity in Chr22amp cells at basal levels, and surprising impact of AZD2811 on the EGFR pathway. Citation Format: Arran Dokal, Jordi Bertran-Alamillo, Edmund Wilkes, Hilary Lewis, Ana Gimenez-Capitan, Calum Greenhalgh, Ruth Osuntola, Maruan Higazi-Vega, Shona Ellison, Vinothini Rajeeve, Giulia Fabbri, Urszula Polanska, J. Elizabeth Pease, Pedro Rodriguez-Cutillas, Jelena Urosevic, Miguel Angel Molina-Vila, David Britton, Jon Travers. Precision phosphoproteomic analysis in Chr22q11.2 amplified NSCLC cells reveals distinct signaling corruption and response to Aurora kinase B inhibition [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1107.
摘要:Chr22q11.2扩增的NSCLC细胞的精确磷酸化蛋白质组学分析揭示了不同的信号破坏和对极光激酶B抑制的反应
背景:携带EGFR突变的NSCLC细胞可以通过扩增含有CRKL的染色体片段Chr22q11.2 (Chr22amp)获得对同源TKIs的抗性。这也特别与极光激酶B (AZD2811)抑制剂的敏感性相关,可能由其他Chr22基因介导。此外,对AZD2811的反应发生表型重布线,从野生型(WT)细胞的衰老多倍体到Chr22amp细胞的凋亡。在这里,我们旨在通过磷酸化蛋白质组学途径分析来阐明这一背景下潜在的信号改变。方法:对EGFR突变细胞系PC9和8个TKI耐药衍生物(4个Chr22amp和4个WT)进行分析。通过流式细胞术检测AZD2811 (100nM)和奥西替尼(160nm)的反应动力学。样品(n=3)分别在使用AZD2811 6、24和48 h和使用希莫替尼1 h后制备,并与时间匹配的对照组进行磷酸化蛋白质组学分析。细胞洗涤,尿素溶解,胰蛋白酶消化。磷酸化肽用TiO2富集,并用Orbitrap LC-MS/MS进行分析。计算分析定量了样品中的多肽。KScanTM生物信息学鉴定了Chr22amp和WT之间的差异磷酸肽,通过KSEA、推定下游靶标(PDT)和差异化合物靶标活性标记(CTAM)确定激酶底物谱。结果:ch22amp细胞对AZD2811的单细胞时程分析显示,处理后48 h,约60%的细胞变成了Annexin V+。我们在治疗后6、24和48小时取时间点。我们将磷酸化蛋白质组学分析重点放在了Chr22amp扩增细胞的三个比较上:1)与WT相比的基础信号状态;2)亲代PC9对奥希替尼的信号反应;3)与WT相比,AZD2811改变了信号传导动力学。在基础水平上,Chr22amp具有CK1e, CDK2, p38a底物差异富集,MTOR抑制剂和Aurora B抑制剂调节位点(p结论:在这里,我们发现Chr22amp细胞中显著的通路失调,破坏了EGFR抑制并增强了对AZD2811的敏感性。有趣的是,我们在Chr22amp细胞中检测到基础水平的Aurora B活性增强,以及AZD2811对EGFR通路的惊人影响。引文格式:Arran Dokal, Jordi bertrann - alamillo, Edmund Wilkes, Hilary Lewis, Ana Gimenez-Capitan, Calum Greenhalgh, Ruth Osuntola, Maruan Higazi-Vega, Shona Ellison, Vinothini Rajeeve, Giulia Fabbri, Urszula Polanska, J. Elizabeth Pease, Pedro Rodriguez-Cutillas, Jelena Urosevic, Miguel Angel Molina-Vila, David Britton, Jon Travers。Chr22q11.2扩增的NSCLC细胞的精确磷酸化蛋白质组学分析揭示了不同的信号破坏和对极光激酶B抑制的反应[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):1107。
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