系统筛选确定ABCG2是激酶抑制剂与转录CDK抑制剂协同作用的关键因素。

Vera E van der Noord, Wanda van der Stel, Gijs Louwerens, Danielle Verhoeven, Hendrik J Kuiken, Cor Lieftink, Melanie Grandits, Gerhard F Ecker, Roderick L Beijersbergen, Peter Bouwman, Sylvia E Le Dévédec, Bob van de Water
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引用次数: 2

摘要

背景:三阴性乳腺癌(TNBC)是一种治疗方案有限且临床预后较差的乳腺癌亚型。转录CDKs抑制剂目前正在深入研究用于治疗多种癌症类型,包括乳腺癌。这些研究提高了将这些抑制剂(包括CDK12/13抑制剂THZ531)与多种其他抗癌药物联合使用的兴趣。然而,转录CDK抑制剂与激酶抑制剂的潜在协同相互作用的全部范围尚未得到系统的研究。此外,这些先前描述的协同相互作用背后的机制在很大程度上仍然难以捉摸。方法:联合筛选TNBC细胞系中与CDK7抑制剂THZ1和CDK12/13抑制剂THZ531协同作用的激酶抑制剂。通过CRISPR-Cas9敲除筛选和耐药细胞系与敏感细胞系的转录组学评估来鉴定THZ531耐药的关键基因。在单独和联合协同治疗后进行RNA测序分析,以进一步了解这种协同作用的机制。激酶抑制剂筛选结合ABCG2底物亲碱性物A的可视化来鉴定抑制ABCG2的激酶抑制剂。对多种转录CDK抑制剂进行了评估,以将发现的机制的意义扩展到其他转录CDK抑制剂。结果:我们发现大量酪氨酸激酶抑制剂与CDK12/13抑制剂THZ531协同作用。然而,我们发现多药转运体ABCG2是TNBC细胞中THZ531耐药的关键决定因素。在机制上,我们证明了大多数协同激酶抑制剂阻断ABCG2功能,从而使细胞对转录CDK抑制剂敏感,包括THZ531。因此,这些激酶抑制剂增强了THZ531的作用,破坏基因表达并增加内含子聚腺苷酸化。结论:总体而言,本研究证明了ABCG2在限制转录CDK抑制剂疗效方面的关键作用,并确定了多种激酶抑制剂,这些激酶抑制剂破坏ABCG2转运蛋白功能,从而与这些CDK抑制剂协同作用。因此,这些发现进一步促进了靶向转录CDKs的新(联合)疗法的发展,并强调了评估ABC转运蛋白在一般协同药物-药物相互作用中的作用的重要性。
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Systematic screening identifies ABCG2 as critical factor underlying synergy of kinase inhibitors with transcriptional CDK inhibitors.

Background: Triple-negative breast cancer (TNBC) is a subtype of breast cancer with limited treatment options and poor clinical prognosis. Inhibitors of transcriptional CDKs are currently under thorough investigation for application in the treatment of multiple cancer types, including breast cancer. These studies have raised interest in combining these inhibitors, including CDK12/13 inhibitor THZ531, with a variety of other anti-cancer agents. However, the full scope of these potential synergistic interactions of transcriptional CDK inhibitors with kinase inhibitors has not been systematically investigated. Moreover, the mechanisms behind these previously described synergistic interactions remain largely elusive.

Methods: Kinase inhibitor combination screenings were performed to identify kinase inhibitors that synergize with CDK7 inhibitor THZ1 and CDK12/13 inhibitor THZ531 in TNBC cell lines. CRISPR-Cas9 knockout screening and transcriptomic evaluation of resistant versus sensitive cell lines were performed to identify genes critical for THZ531 resistance. RNA sequencing analysis after treatment with individual and combined synergistic treatments was performed to gain further insights into the mechanism of this synergy. Kinase inhibitor screening in combination with visualization of ABCG2-substrate pheophorbide A was used to identify kinase inhibitors that inhibit ABCG2. Multiple transcriptional CDK inhibitors were evaluated to extend the significance of the found mechanism to other transcriptional CDK inhibitors.

Results: We show that a very high number of tyrosine kinase inhibitors synergize with the CDK12/13 inhibitor THZ531. Yet, we identified the multidrug transporter ABCG2 as key determinant of THZ531 resistance in TNBC cells. Mechanistically, we demonstrate that most synergistic kinase inhibitors block ABCG2 function, thereby sensitizing cells to transcriptional CDK inhibitors, including THZ531. Accordingly, these kinase inhibitors potentiate the effects of THZ531, disrupting gene expression and increasing intronic polyadenylation.

Conclusion: Overall, this study demonstrates the critical role of ABCG2 in limiting the efficacy of transcriptional CDK inhibitors and identifies multiple kinase inhibitors that disrupt ABCG2 transporter function and thereby synergize with these CDK inhibitors. These findings therefore further facilitate the development of new (combination) therapies targeting transcriptional CDKs and highlight the importance of evaluating the role of ABC transporters in synergistic drug-drug interactions in general.

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