Ion channel modulator DPI-201-106 significantly enhances antitumor activity of DNA damage response inhibitors in glioblastoma.

IF 3.7 Q1 CLINICAL NEUROLOGY Neuro-oncology advances Pub Date : 2024-11-19 eCollection Date: 2024-01-01 DOI:10.1093/noajnl/vdae187

Brittany Dewdney, Panimaya Jeffreena Miranda, Mani Kuchibhotla, Ranjith Palanisamy, Caitlyn Richworth, Carol J Milligan, Zi Ying Ng, Lauren Ursich, Steve Petrou, Emily V Fletcher, Roger J Daly, Terry C C Lim Kam Sian, Santosh Valvi, Raelene Endersby, Terrance G Johns

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Abstract

Background: Glioblastoma, a lethal high-grade glioma, has not seen improvements in clinical outcomes in nearly 30 years. Ion channels are increasingly associated with tumorigenesis, and there are hundreds of brain-penetrant drugs that inhibit ion channels, representing an untapped therapeutic resource. The aim of this exploratory drug study was to screen an ion channel drug library against patient-derived glioblastoma cells to identify new treatments for brain cancer.

Methods: Seventy-two ion channel inhibitors were screened in patient-derived glioblastoma cells, and cell viability was determined using the ViaLight Assay. Cell cycle and apoptosis analysis were determined with flow cytometry using PI and Annexin V staining, respectively. Protein and phosphoprotein expression was determined using mass spectrometry and analyzed using gene set enrichment analysis. Kaplan-Meier survival analyses were performed using intracranial xenograft models of GBM6 and WK1 cells.

Results: The voltage-gated sodium channel modulator, DPI-201-106, was revealed to reduce glioblastoma cell viability in vitro by inducing cell cycle arrest and apoptosis. Phosphoproteomics indicated that DPI-201-106 may impact DNA damage response (DDR) pathways. Combination treatment of DPI-201-106 with the CHK1 inhibitor prexasertib or the PARP inhibitor niraparib demonstrated synergistic effects in multiple patient-derived glioblastoma cells both in vitro and in intracranial xenograft mouse models, extending survival of glioblastoma-bearing mice.

Conclusions: DPI-201-106 enhances the efficacy of DDR inhibitors to reduce glioblastoma growth. As these drugs have already been clinically tested in humans, repurposing DPI-201-106 in novel combinatorial approaches will allow for rapid translation into the clinic.

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离子通道调节剂DPI-201-106显著增强DNA损伤反应抑制剂在胶质母细胞瘤中的抗肿瘤活性。

背景：胶质母细胞瘤是一种致死性高级别胶质瘤，近30年来在临床预后方面未见改善。离子通道与肿瘤发生的关系越来越密切，有数百种脑渗透药物可以抑制离子通道，这是一种尚未开发的治疗资源。这项探索性药物研究的目的是筛选针对患者源性胶质母细胞瘤细胞的离子通道药物库，以确定脑癌的新治疗方法。方法：在患者源性胶质母细胞瘤细胞中筛选72种离子通道抑制剂，并使用ViaLight Assay测定细胞活力。流式细胞术分别采用PI和Annexin V染色检测细胞周期和凋亡。用质谱法测定蛋白和磷蛋白的表达，用基因集富集分析进行分析。使用GBM6和WK1细胞的颅内异种移植模型进行Kaplan-Meier生存分析。结果：电压门控钠通道调节剂DPI-201-106通过诱导细胞周期阻滞和细胞凋亡，在体外降低胶质母细胞瘤细胞活力。磷酸化蛋白质组学表明DPI-201-106可能影响DNA损伤反应（DDR）途径。DPI-201-106与CHK1抑制剂prexasertib或PARP抑制剂niraparib联合治疗在体外和颅内异种移植小鼠模型中对多种患者源性胶质母细胞瘤细胞显示出协同作用，延长了胶质母细胞瘤小鼠的生存期。结论：DPI-201-106能增强DDR抑制剂抑制胶质母细胞瘤生长的作用。由于这些药物已经在人体中进行了临床试验，在新的组合方法中重新利用DPI-201-106将允许快速转化为临床。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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