Abstract 4543: Proteomic characterization of AXL kinase inhibitors and signaling pathways

A. Majumder, Guolin Zhang, Emma Adhikari, B. Fang, E. Welsh, J. Koomen, E. Haura
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引用次数: 0

Abstract

AXL is an attractive drug target because of its role in EMT-mediated resistance to EGFR tyrosine kinase inhibitor (TKI) in lung cancer (LC). Lack of genetic alterations and the role of stroma-mediated AXL activation in cancer cells, underscore the need to better characterize AXL TKIs, understand their effects on signaling and phenotype of cells, and develop assays to visualize active AXL signaling complexes. For this, 25 LC cells were analyzed for total (t) and phosphorylated (p) AXL expression. AXL TKIs, RXDX106, R428 and Cabozantinib, were profiled using western blotting (WB), viability assay and activity-based protein profiling (ABPP). Phosphoproteins (pSTY) altered by RXDX106 were identified using mass spectrometry. Effects of RXDX106 on signaling, viability and migration of LC cells were also evaluated. Cell line models of EMT-mediated acquired drug resistance, treated with a combination of AXL and EGFR TKIs, were analyzed for changes in signaling, cell viability and EMT. Immunoprecipitation (IP) identified adaptors of AXL signaling, and Proximity Ligation Assays (PLA) were developed to detect these active complexes in situ. H1299 cells, expressing highest levels of p and t AXL among the LC lines screened, was used in this study. RXDX106 and Cabozantinib potently inhibited pAXL in H1299 cells, but did not affect cell viability at these doses. R428 reduced cell viability at doses that did not efficiently inhibit pAXL, suggesting AXL independent phenotypic effects. Our ABPP data shows that apart from AXL, these TKIs target other overlapping and distinct subsets of proteins. R428 has the highest number of off targets and its unique ability to inhibit the FoxO pathway may explain the AXL independent phenotypic effects of R428. The pSTY data shows that RXDX106 deregulates phosphorylation of proteins involved in PI3K signaling, receptor endocytosis and cell migration pathways in H1299 cells. WB and phenotypic assays support these results by showing that RXDX106 inhibits pAXL, downstream pAKT but not pERK, and migration/invasion in these cells. In EGFR TKI resistant cells, EGFR and AXL TKI combination fails to alter downstream signaling, cell viability or EMT. Consistent with the WB and pSTY analyses, IP identifies PI3KR1 as an AXL interactor. PLAs to detect active AXL:PI3KR1 and AXL:pY100 signaling complexes show high basal PLA foci in H1299 and Calu1 cells that are abrogated by AXL TKI. HCC827 cells, which lack ligand independent pAXL, do not show significant labeling by either PLA. Overall, we demonstrate that different AXL TKIs have distinct target profiles and that inhibition of AXL suppresses downstream PI3K/AKT signaling and migration/ invasion of LC cells. We also show that AXL TKI fails to suppress downstream signaling, cell viability or EMT in EGFR TKI resistant cell lines. We have also established a PLA to annotate AXL adaptor foci that could be developed as a tool to measure drug-targetable active AXL complexes in patient tissues. Citation Format: Anurima Majumder, Guolin Zhang, Emma Adhikari, Bin Fang, Eric A. Welsh, John M. Koomen, Eric B. Haura. Proteomic characterization of AXL kinase inhibitors and signaling pathways [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 4543.
摘要:AXL激酶抑制剂的蛋白质组学特征和信号通路
AXL是一个有吸引力的药物靶点,因为它在肺癌(LC)中emt介导的对EGFR酪氨酸激酶抑制剂(TKI)的耐药性中起作用。缺乏遗传改变和基质介导的AXL在癌细胞中激活的作用,强调需要更好地表征AXL TKIs,了解它们对细胞信号传导和表型的影响,并开发检测活性AXL信号复合物的方法。为此,分析了25个LC细胞的总(t)和磷酸化(p) AXL表达。AXL TKIs, RXDX106, R428和Cabozantinib,采用western blotting (WB),活力测定和基于活性的蛋白分析(ABPP)进行分析。质谱法鉴定了RXDX106改变的磷酸化蛋白(pSTY)。研究了RXDX106对LC细胞信号转导、活力和迁移的影响。用AXL和EGFR TKIs联合治疗EMT介导的获得性耐药细胞系模型,分析信号传导、细胞活力和EMT的变化。免疫沉淀(IP)鉴定了AXL信号转导的接头,并开发了邻近结扎法(PLA)来原位检测这些活性复合物。在筛选的LC细胞系中,p和t AXL表达水平最高的是H1299细胞。RXDX106和Cabozantinib在H1299细胞中有效抑制pAXL,但在这些剂量下不影响细胞活力。R428在没有有效抑制pAXL的剂量下降低了细胞活力,提示AXL独立的表型效应。我们的ABPP数据显示,除了AXL,这些tki靶向其他重叠和不同的蛋白质亚群。R428脱靶数量最多,其独特的抑制FoxO通路的能力可能解释了R428不依赖AXL的表型效应。pSTY数据显示,RXDX106解除了H1299细胞中PI3K信号通路、受体内吞作用和细胞迁移途径相关蛋白的磷酸化调控。WB和表型分析支持这些结果,显示RXDX106抑制pAXL,下游pAKT,但不抑制pERK,以及这些细胞的迁移/侵袭。在EGFR TKI耐药细胞中,EGFR和AXL TKI联合不能改变下游信号、细胞活力或EMT。与WB和pSTY分析一致,IP将PI3KR1识别为AXL交互子。检测活跃的AXL:PI3KR1和AXL:pY100信号复合物的PLA在H1299和Calu1细胞中显示出高的基础PLA灶,而AXL TKI则消除了这些灶。HCC827细胞缺乏与配体无关的pAXL,两种PLA均未显示出显著的标记。总之,我们证明了不同的AXL TKIs具有不同的靶标谱,并且抑制AXL可抑制下游PI3K/AKT信号传导和LC细胞的迁移/侵袭。我们还发现AXL TKI不能抑制EGFR TKI耐药细胞系的下游信号、细胞活力或EMT。我们还建立了一个PLA来注释AXL适配器焦点,可以开发作为测量患者组织中药物靶向活性AXL复合物的工具。引用格式:Anurima Majumder,张国林,Emma Adhikari,方斌,Eric A. Welsh, John M. Koomen, Eric B. Haura。AXL激酶抑制剂的蛋白质组学特征和信号通路[摘要]。摘自:2019年美国癌症研究协会年会论文集;2019年3月29日至4月3日;亚特兰大,乔治亚州。费城(PA): AACR;癌症杂志,2019;79(13增刊):4543。
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