Tousled-like kinase loss confers PARP inhibitor resistance in BRCA1-mutated cancers by impeding non-homologous end joining repair.

IF 6.4 2区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Medicine Pub Date : 2025-01-22 DOI:10.1186/s10020-025-01066-z

Min-Ah Kim, Banseok Kim, Jihyeon Jeon, Jonghyun Lee, Hyeji Jang, Minjae Baek, Sang-Uk Seo, Dongkwan Shin, Anindya Dutta, Kyung Yong Lee

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Abstract

Background: Double-strand breaks (DSBs) are primarily repaired through non-homologous end joining (NHEJ) and homologous recombination (HR). Given that DSBs are highly cytotoxic, PARP inhibitors (PARPi), a prominent class of anticancer drugs, are designed to target tumors with HR deficiency (HRD), such as those harboring BRCA mutations. However, many tumor cells acquire resistance to PARPi, often by restoring HR in HRD cells through the inactivation of NHEJ. Therefore, identifying novel regulators of NHEJ could provide valuable insights into the mechanisms underlying PARPi resistance.

Methods: Cellular DSBs were assessed using neutral comet assays and phospho-H2AX immunoblotting. Fluorescence-based reporter assays quantified repair via NHEJ or HR. The recruitment of proteins that promote NHEJ and HR to DSBs was analyzed using immunostaining, live-cell imaging following laser-induced microirradiation, and FokI-inducible single DSB generation. Loss-of-function experiments were performed in multiple human cancer cell lines using siRNA-mediated knockdown or CRISPR-Cas9 gene knockout. Cell viability assays were conducted to evaluate resistance to PARP inhibitors. Additionally, bioinformatic analyses of public databases were performed to investigate the association between TLK expression and BRCA1 status.

Results: We demonstrate that human tousled-like kinase (TLK) orthologs are essential for NHEJ-mediated repair of DSBs and for PARPi sensitivity in cells with BRCA1 mutation. TLK1 and TLK2 exhibit redundant roles in promoting NHEJ, and their deficiency results in a significant accumulation of DSBs. TLKs are required for the proper localization of 53BP1, a key factor in promoting the NHEJ pathway. Consequently, TLK deficiency induces PARPi resistance in triple-negative breast cancer (TNBC) and ovarian cancer (OVCA) cell lines with BRCA1 deficiency, as TLK deficiency in BRCA1-depleted cells, impairs 53BP1 recruitment to DSBs and reduces NHEJ efficiency, while restoring HR.

Conclusions: We have identified TLK proteins as novel regulators of NHEJ repair and PARPi sensitivity in BRCA1-depleted cells, suggesting that TLK repression may represent a previously unrecognized mechanism by which BRCA1 mutant cancers acquire PARPi resistance.

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在brca1突变的癌症中，凌乱样激酶缺失通过阻碍非同源末端连接修复而赋予PARP抑制剂耐药性。

背景：双链断裂（DSBs）主要通过非同源末端连接（NHEJ）和同源重组（HR）修复。鉴于dsb具有高度的细胞毒性，PARP抑制剂（PARPi）是一类重要的抗癌药物，被设计用于靶向具有HR缺乏症（HRD）的肿瘤，例如那些携带BRCA突变的肿瘤。然而，许多肿瘤细胞获得对PARPi的抗性，通常是通过NHEJ的失活来恢复HRD细胞中的HR。因此，确定NHEJ的新调控因子可以为了解PARPi抗性的机制提供有价值的见解。方法：采用中性彗星法和phospho-H2AX免疫印迹法检测细胞dsb。基于荧光的报告基因检测通过NHEJ或HR定量修复。通过免疫染色、激光诱导微照射后的活细胞成像和foki诱导的单DSB生成，分析促进NHEJ和HR的蛋白向DSB募集的情况。通过sirna介导的敲除或CRISPR-Cas9基因敲除，在多种人类癌细胞系中进行了功能丧失实验。通过细胞活力测定来评估对PARP抑制剂的耐药性。此外，对公共数据库进行生物信息学分析，以调查TLK表达与BRCA1状态之间的关系。结果：我们证明了人类凌乱样激酶（TLK）同源物对于nhej介导的dsb修复和BRCA1突变细胞中PARPi的敏感性是必不可少的。TLK1和TLK2在促进NHEJ中表现出冗余作用，它们的缺乏导致dsb的显著积累。53BP1是促进NHEJ通路的关键因素，tlk是53BP1正确定位所必需的。因此，在BRCA1缺失的三阴性乳腺癌（TNBC）和卵巢癌（OVCA）细胞系中，TLK缺乏诱导PARPi耐药，因为BRCA1缺失的细胞中TLK缺乏会损害53BP1向dsb的募集，降低NHEJ效率，同时恢复HR。结论：我们已经发现TLK蛋白是BRCA1缺失细胞中NHEJ修复和PARPi敏感性的新调节剂，这表明TLK抑制可能代表了BRCA1突变型癌症获得PARPi抗性的一种以前未被认识的机制。

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来源期刊

Molecular Medicine 医学-生化与分子生物学

CiteScore

8.60

自引率

0.00%

发文量

137

审稿时长

1 months

期刊介绍： Molecular Medicine is an open access journal that focuses on publishing recent findings related to disease pathogenesis at the molecular or physiological level. These insights can potentially contribute to the development of specific tools for disease diagnosis, treatment, or prevention. The journal considers manuscripts that present material pertinent to the genetic, molecular, or cellular underpinnings of critical physiological or disease processes. Submissions to Molecular Medicine are expected to elucidate the broader implications of the research findings for human disease and medicine in a manner that is accessible to a wide audience.