Loss of heterozygosity of CYP2D6 enhances the sensitivity of hepatocellular carcinomas to talazoparib.

IF 9.7 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL EBioMedicine Pub Date : 2024-11-01 Epub Date: 2024-10-04 DOI:10.1016/j.ebiom.2024.105368

Xiaonan Zhang, Natallia Rameika, Lei Zhong, Verónica Rendo, Margus Veanes, Snehangshu Kundu, Sandro Nuciforo, Jordan Dupuis, Muhammad Al Azhar, Ioanna Tsiara, Pauline Seeburger, Shahed Al Nassralla, Viktor Ljungström, Richard Svensson, Ivaylo Stoimenov, Per Artursson, Markus H Heim, Daniel Globisch, Tobias Sjöblom

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Abstract

Background: Loss of heterozygosity (LOH) diminishes genetic diversity within cancer genomes. A tumour arising in an individual heterozygous for a functional and a loss-of-function (LoF) allele of a gene occasionally retain only the LoF allele. This can result in deficiency of specific protein activities in cancer cells, creating unique differences between tumour cells and normal cells of the individual. Such differences may constitute vulnerabilities that can be exploited through allele-specific therapies.

Methods: To discover frequently lost genes with prevalent LoF alleles, we mined the 1000 Genomes dataset for SNVs causing protein truncation through base substitution, indels or splice site disruptions, resulting in 60 LoF variants in 60 genes. From these, the variant rs3892097 in the liver enzyme CYP2D6 was selected because it is located within a genomic region that frequently undergoes LOH in several tumor types including hepatocellular cancers. To evaluate the relationship between CYP2D6 activity and the toxicities of anticancer agents, we screened 525 compounds currently in clinical use or undergoing clinical trials using cell model systems with or without CYP2D6 activity.

Findings: We identified 12 compounds, AZD-3463, CYC-116, etoposide, everolimus, GDC-0349, lenvatinib, MK-8776, PHA-680632, talazoparib, tyrphostin 9, VX-702, and WZ-3146, using an engineered HEK293T cell model. Of these, talazoparib and MK-8776 demonstrated consistently heightened cytotoxic effects against cells with compromised CYP2D6 activity in engineered hepatocellular cancer cell models. Moreover, talazoparib displayed CYP2D6 genotype dependent effects on primary hepatocellular carcinoma organoids.

Interpretation: Exploiting the loss of drug-metabolizing enzyme gene activity in tumor cells following loss of heterozygosity could present a promising therapeutic strategy for targeted cancer treatment.

Funding: This work was funded by Barncancerfonden (T.S, PR2022-0099 and PR2020-0171, X.Z, TJ2021-0111), Cancerfonden (T.S, 211719Pj and D.G, 222449Pj), Vetenskapsrådet (T.S, 2020-02371 and D.G, 2020-04707), and the Erling Persson Foundation (T.S, 2020-0037 and T.S, 2023-0113).

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CYP2D6杂合性缺失会增强肝细胞癌对他拉唑帕利的敏感性。

背景：杂合性缺失（LOH）会降低癌症基因组内的遗传多样性。杂合性基因的功能等位基因和功能缺失（LoF）等位基因杂合的个体产生的肿瘤偶尔只保留 LoF 等位基因。这可能导致癌细胞缺乏特定的蛋白质活性，从而在肿瘤细胞和正常细胞之间产生独特的差异。这种差异可能构成等位基因特异性疗法可以利用的弱点：为了发现具有普遍 LoF 等位基因的常失基因，我们在 1000 基因组数据集中挖掘了通过碱基置换、嵌合或剪接位点破坏导致蛋白质截断的 SNV，结果在 60 个基因中发现了 60 个 LoF 变异。其中，肝脏酶 CYP2D6 中的变异 rs3892097 被选中，因为它位于一个在包括肝细胞癌在内的几种肿瘤类型中经常发生 LOH 的基因组区域内。为了评估 CYP2D6 活性与抗癌药物毒性之间的关系，我们使用具有或不具有 CYP2D6 活性的细胞模型系统筛选了 525 种目前临床使用或正在进行临床试验的化合物：我们利用改造的 HEK293T 细胞模型筛选出了 12 种化合物：AZD-3463、CYC-116、依托泊苷、依维莫司、GDC-0349、来伐替尼、MK-8776、PHA-680632、talazoparib、tyrphostin 9、VX-702 和 WZ-3146。其中，talazoparib和MK-8776对工程肝癌细胞模型中CYP2D6活性受损的细胞具有持续增强的细胞毒性作用。此外，talazoparib 对原发性肝细胞癌组织细胞的作用还与 CYP2D6 基因型有关：解读：利用肿瘤细胞中药物代谢酶基因在杂合性缺失后的活性丧失，可以为癌症靶向治疗提供一种前景广阔的治疗策略：本研究由 Barncancerfonden（T.S，PR2022-0099 和 PR2020-0171；X.Z，TJ2021-0111）、Cancerfonden（T.S，211719Pj 和 D.G，222449Pj）、Vetenskapsrådet（T.S，2020-02371 和 D.G，2020-04707）以及 Erling Persson 基金会（T.S，2020-0037 和 T.S，2023-0113）资助。

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来源期刊

EBioMedicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

17.70

自引率

0.90%

发文量

579

审稿时长

5 weeks

期刊介绍： eBioMedicine is a comprehensive biomedical research journal that covers a wide range of studies that are relevant to human health. Our focus is on original research that explores the fundamental factors influencing human health and disease, including the discovery of new therapeutic targets and treatments, the identification of biomarkers and diagnostic tools, and the investigation and modification of disease pathways and mechanisms. We welcome studies from any biomedical discipline that contribute to our understanding of disease and aim to improve human health.