Diego Luis Ribeiro, Marcela Teatin Latancia, Izadora de Souza, Abu-Bakr Adetayo Ariwoola, Davi Mendes, Clarissa Ribeiro Reily Rocha, André Van Helvoort Lengert, Carlos Frederico Martins Menck
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引用次数: 0
摘要
替莫唑胺(TMZ)是治疗多形性胶质母细胞瘤(GBM)的主要药物。然而,化疗耐药 GBM 细胞的持续存在仍是一个持续的挑战,其原因是多方面的,包括转子合成(TLS)机制。TLS 利用专门的 DNA 聚合酶绕过 DNA 病变,使肿瘤细胞能够承受基因组损伤。具体来说,TLS聚合酶Kappa(Polκ)与促进DNA损伤耐受TMZ诱导的损伤有关,导致GBM患者预后恶化。为了更好地了解 Polκ 在 TMZ 抗性中的作用,我们对 TMZ 对体外培养为三维(3D)肿瘤球的 GBM(U251MG)野生型(WTE)和 TLS Polκ 基因敲除(KO)细胞的细胞毒性、抗增殖性、抗转移性和基因毒性作用进行了全面评估。初步结果显示,TMZ(i)诱导 GBM 球体直径缩小(10-200 μM);(ii)表现出显著的细胞毒性(25-200 μM);(iii)与 WTE 球体相比,Polκ KO 球体具有抗增殖作用(≤ 25 μM),并促进细胞周期停滞(G2/M 期)。此外,与 WTE 相比,Polκ KO 球形细胞暴露于 TMZ 后,细胞死亡水平(Caspase 3/7)升高,并显示出更大的遗传毒性(53BP1)。在抗转移作用方面,TMZ 在 Polκ KO 球形体中比在 WTE 球形体中更有效地阻碍了侵袭(三维侵袭)。总之,这些结果表明,TLS Polκ 在体外 GBM 球形细胞经 TMZ 处理后的存活、细胞死亡、基因毒性和转移潜能方面起着至关重要的作用。虽然这种抗药性的确切机制仍难以捉摸,但TLS Polκ已成为GBM患者的潜在治疗靶点。
Temozolomide resistance mechanisms: unveiling the role of translesion DNA polymerase kappa in glioblastoma spheroids in vitro.
Temozolomide (TMZ) is the leading therapeutic agent for combating Glioblastoma Multiforme (GBM). Nonetheless, the persistence of chemotherapy-resistant GBM cells remains an ongoing challenge, attributed to various factors, including the translesion synthesis (TLS) mechanism. TLS enables tumor cells to endure genomic damage by utilizing specialized DNA polymerases to bypass DNA lesions. Specifically, TLS polymerase Kappa (Polκ) has been implicated in facilitating DNA damage tolerance against TMZ-induced damage, contributing to a worse prognosis in GBM patients. To better understand the roles of Polκ in TMZ resistance, we conducted a comprehensive assessment of the cytotoxic, antiproliferative, antimetastatic, and genotoxic effects of TMZ on GBM (U251MG) wild-type (WTE) and TLS Polκ knockout (KO) cells, cultivated as three-dimensional (3D) tumor spheroids in vitro. Initial results revealed that TMZ: (i) induces reductions in GBM spheroid diameter (10-200 µM); (ii) demonstrates significant cytotoxicity (25-200 μM); (iii) exerts antiproliferative effects (≤25 μM) and promotes cell cycle arrest (G2/M phase) in Polκ KO spheroids when compared with WTE counterparts. Furthermore, Polκ KO spheroids exhibit elevated levels of cell death (Caspase 3/7) and display greater genotoxicity (53BP1) than WTE following TMZ exposure. Concerning antimetastatic effects, TMZ impedes invadopodia (3D invasion) more effectively in Polκ KO than in WTE spheroids. Collectively, the results suggest that TLS Polκ plays a vital role in the survival, cell death, genotoxicity, and metastatic potential of GBM spheroids in vitro when subjected to TMZ treatment. While the precise mechanisms underpinning this resistance remain elusive, TLS Polκ emerges as a potential therapeutic target for GBM patients.
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