Centro de Investigaciones en Bioquímica Clínica e Inmunología, CIBICI-CONICET, Córdoba, Argentina.
Departamento de Bioquímica Clínica, Facultad de Ciencias Químicas, Universidad Nacional de Córdoba, Córdoba, Argentina.
Oncogene. 2019 May;38(22):4310-4324. doi: 10.1038/s41388-019-0724-7. Epub 2019 Jan 31.
Translesion DNA synthesis (TLS) and homologous recombination (HR) cooperate during S-phase to safeguard replication forks integrity. Thus, the inhibition of TLS becomes a promising point of therapeutic intervention in HR-deficient cancers, where TLS impairment might trigger synthetic lethality (SL). The main limitation to test this hypothesis is the current lack of selective pharmacological inhibitors of TLS. Herein, we developed a miniaturized screening assay to identify inhibitors of PCNA ubiquitylation, a key post-translational modification required for efficient TLS activation. After screening a library of 627 kinase inhibitors, we found that targeting the pro-survival kinase AKT leads to strong impairment of PCNA ubiquitylation. Mechanistically, we found that AKT-mediated modulation of Proliferating Cell Nuclear Antigen (PCNA) ubiquitylation after UV requires the upstream activity of DNA PKcs, without affecting PCNA ubiquitylation levels in unperturbed cells. Moreover, we confirmed that persistent AKT inhibition blocks the recruitment of TLS polymerases to sites of DNA damage and impairs DNA replication forks processivity after UV irradiation, leading to increased DNA replication stress and cell death. Remarkably, when we compared the differential survival of HR-proficient vs HR-deficient cells, we found that the combination of UV irradiation and AKT inhibition leads to robust SL induction in HR-deficient cells. We link this phenotype to AKT ability to inhibit PCNA ubiquitylation, since the targeted knockdown of PCNA E3-ligase (RAD18) and a non-ubiquitylable (PCNA K164R) knock-in model recapitulate the observed SL induction. Collectively, this work identifies AKT as a novel regulator of PCNA ubiquitylation and provides the proof-of-concept of inhibiting TLS as a therapeutic approach to selectively kill HR-deficient cells submitted to replication stress.
跨损伤 DNA 合成 (TLS) 和同源重组 (HR) 在 S 期协同作用以保护复制叉的完整性。因此,抑制 TLS 成为 HR 缺陷型癌症治疗干预的一个有前途的靶点,在 HR 缺陷型癌症中,TLS 损伤可能引发合成致死 (SL)。测试这一假设的主要限制是目前缺乏选择性的 TLS 药理学抑制剂。在此,我们开发了一种小型化筛选测定法来鉴定 PCNA 泛素化的抑制剂,PCNA 泛素化是有效激活 TLS 所必需的关键翻译后修饰。在筛选了 627 种激酶抑制剂文库后,我们发现靶向生存激酶 AKT 会导致 PCNA 泛素化的强烈损伤。从机制上讲,我们发现 AKT 介导的 UV 后增殖细胞核抗原 (PCNA) 泛素化的调节需要 DNA PKcs 的上游活性,而不影响未受干扰细胞中的 PCNA 泛素化水平。此外,我们证实持续的 AKT 抑制会阻止 TLS 聚合酶在 DNA 损伤部位的募集,并在 UV 照射后损害 DNA 复制叉的连续性,导致 DNA 复制应激和细胞死亡增加。值得注意的是,当我们比较 HR 功能正常和 HR 缺陷细胞的差异存活率时,我们发现 UV 照射和 AKT 抑制的组合会导致 HR 缺陷细胞中出现强烈的 SL 诱导。我们将这种表型与 AKT 抑制 PCNA 泛素化的能力联系起来,因为靶向敲低 PCNA E3 连接酶 (RAD18) 和非泛素化 (PCNA K164R) 敲入模型再现了观察到的 SL 诱导。总的来说,这项工作确定了 AKT 是 PCNA 泛素化的新型调节因子,并为抑制 TLS 作为一种选择性杀死复制应激下 HR 缺陷细胞的治疗方法提供了概念验证。
