Polypharmacological profiling across protein target families and cellular pathways using the multiplexed cell-based assay platform safetyProfiler reveals efficacy, potency and side effects of drugs.

Lukša Popović, Ben Brankatschk, Giulia Palladino, Moritz J Rossner, Michael C Wehr
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Abstract

Selectivity profiling is key for assessing the pharmacological properties of multi-target drugs. We have developed a cell-based and barcoded assay encompassing ten druggable targets, including G protein-coupled receptors (GPCRs), receptor tyrosine kinases (RTKs), nuclear receptors, a protease as well as their key downstream pathways and profiled 17 drugs in living cells for efficacy, potency, and side effects. Notably, this multiplex assay, termed safetyProfiler assay, enabled the simultaneous assessment of multiple target and pathway activities, shedding light on the polypharmacological profile of compounds. For example, the neuroleptics clozapine, paliperidone, and risperidone potently inhibited primary targets DRD2 and HTR2A as well as cAMP and calcium pathways. However, while paliperidone and risperidone also potently inhibited the secondary target ADRA1A and mitogen-activated protein kinase (MAPK) downstream pathways, clozapine only exhibited mild antagonistic effects on ADRA1A and lacked MAPK inhibition downstream of DRD2 and HTR2A. Furthermore, we present data on the selectivity for bazedoxifene, an estrogen receptor antagonist currently undergoing clinical phase 2 trials for breast cancer, on MAPK signaling. Additionally, precise potency data for LY2452473, an androgen receptor antagonist, that completed a phase 2 clinical trial for prostate cancer, are presented. The non-selective kinase inhibitor staurosporine was observed to potently inactivate the two RTKs EGFR and ERBB4 as well as MAPK signaling, while eliciting stress-related cAMP responses. Our findings underscore the value of comprehensive profiling in elucidating the pharmacological properties of established and novel therapeutics, thereby facilitating the development of novel multi-target drugs with enhanced efficacy and selectivity.

使用基于细胞的多重检测平台 safetyProfiler 对蛋白质靶家族和细胞通路进行多药理学分析,揭示药物的疗效、效力和副作用。
选择性分析是评估多靶点药物药理特性的关键。我们开发了一种基于细胞和条形码的检测方法,涵盖十种药物靶点,包括 G 蛋白偶联受体 (GPCR)、受体酪氨酸激酶 (RTK)、核受体、蛋白酶及其关键下游通路,并在活细胞中对 17 种药物进行了药效、效力和副作用分析。值得注意的是,这种被称为 safetyProfiler 分析法的多重分析法能够同时评估多个靶点和途径的活性,从而揭示化合物的多药理学特征。例如,神经抑制剂氯氮平、帕利哌酮和利培酮能有效抑制主要靶点DRD2和HTR2A以及cAMP和钙通路。然而,虽然帕潘立酮和利培酮也能有效抑制次要靶点 ADRA1A 和丝裂原活化蛋白激酶(MAPK)下游通路,但氯氮平只对 ADRA1A 表现出轻微的拮抗作用,而且缺乏对 DRD2 和 HTR2A 下游 MAPK 的抑制作用。此外,我们还提供了目前正在进行乳腺癌临床 2 期试验的雌激素受体拮抗剂--bazedoxifene 对 MAPK 信号转导的选择性数据。此外,我们还提供了已完成前列腺癌 2 期临床试验的雄激素受体拮抗剂 LY2452473 的精确效力数据。据观察,非选择性激酶抑制剂staurosporine能有效灭活两种RTK(表皮生长因子受体和ERBB4)以及MAPK信号转导,同时引起应激相关的cAMP反应。我们的研究结果强调了综合分析在阐明既有疗法和新型疗法的药理特性方面的价值,从而促进了具有更强疗效和选择性的新型多靶点药物的开发。
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