CDK7 和 CDK9 的抑制作用会干扰转录、翻译和干性，并诱导胶质母细胞瘤产生细胞毒性，而与替莫唑胺的敏感性无关。

CDK7 and CDK9 inhibition interferes with transcription, translation, and stemness, and induces cytotoxicity in GBM irrespective of temozolomide sensitivity.

机构信息

Department of Tumor Biology, Moffitt Cancer Center and Research Institute, Tampa, FL, USA.

The Ken and Ruth Devee Department of Neurology, Lou and Jean Malnati Brain Tumor Institute Northwestern Medicine, The Robert H. Lurie Comprehensive Cancer Center, Simpson Querrey Institute for Epigenetics, Northwestern University Feinberg School of Medicine, Chicago, IL, USA.

出版信息

Neuro Oncol. 2024 Jan 5;26(1):70-84. doi: 10.1093/neuonc/noad143.

DOI:10.1093/neuonc/noad143

PMID:37551745

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10768977/

Abstract

BACKGROUND

Glioblastoma (GBM) is refractory to current treatment modalities while side effects of treatments result in neurotoxicity and cognitive impairment. Here we test the hypothesis that inhibiting CDK7 or CDK9 would effectively combat GBM with reduced neurotoxicity.

METHODS

We examined the effect of a CDK7 inhibitor, THZ1, and multiple CDK9 inhibitors (SNS032, AZD4573, NVP2, and JSH150) on GBM cell lines, patient-derived temozolomide (TMZ)-resistant and responsive primary tumor cells and glioma stem cells (GSCs). Biochemical changes were assessed by western blotting, immunofluorescence, multispectral imaging, and RT-PCR. In vivo, efficacy was assessed in orthotopic and subcutaneous xenograft models.

RESULTS

CDK7 and CDK9 inhibitors suppressed the viability of TMZ-responsive and resistant GBM cells and GSCs at low nanomolar concentrations, with limited cytotoxic effects in vivo. The inhibitors abrogated RNA Pol II and p70S6K phosphorylation and nascent protein synthesis. Furthermore, the self-renewal of GSCs was significantly reduced with a corresponding reduction in Sox2 and Sox9 levels. Analysis of TCGA data showed increased expression of CDK7, CDK9, SOX2, SOX9, and RPS6KB1 in GBM; supporting this, multispectral imaging of a TMA revealed increased levels of CDK9, Sox2, Sox9, phospho-S6, and phospho-p70S6K in GBM compared to normal brains. RNA-Seq results suggested that inhibitors suppressed tumor-promoting genes while inducing tumor-suppressive genes. Furthermore, the studies conducted on subcutaneous and orthotopic GBM tumor xenograft models showed that administration of CDK9 inhibitors markedly suppressed tumor growth in vivo.

CONCLUSIONS

Our results suggest that CDK7 and CDK9 targeted therapies may be effective against TMZ-sensitive and resistant GBM.

摘要

背景

胶质母细胞瘤（GBM）对当前的治疗方法具有抗性，而治疗的副作用会导致神经毒性和认知障碍。在这里，我们检验了这样一个假设，即抑制 CDK7 或 CDK9 会有效地对抗 GBM，同时减少神经毒性。

方法

我们研究了 CDK7 抑制剂 THZ1 和多种 CDK9 抑制剂（SNS032、AZD4573、NVP2 和 JSH150）对 GBM 细胞系、患者来源的替莫唑胺（TMZ）耐药和敏感的原发性肿瘤细胞和神经胶质瘤干细胞（GSCs）的影响。通过 Western blot、免疫荧光、多光谱成像和 RT-PCR 评估生化变化。在体内，通过原位和皮下异种移植模型评估疗效。

结果

CDK7 和 CDK9 抑制剂以低纳摩尔浓度抑制 TMZ 敏感和耐药 GBM 细胞和 GSCs 的活力，体内的细胞毒性作用有限。抑制剂阻断了 RNA Pol II 和 p70S6K 的磷酸化和新生蛋白合成。此外，GSCs 的自我更新能力显著降低，相应的 Sox2 和 Sox9 水平降低。TCGA 数据分析表明，CDK7、CDK9、SOX2、SOX9 和 RPS6KB1 在 GBM 中表达增加；支持这一观点的是，TMA 的多光谱成像显示，与正常大脑相比，GBM 中 CDK9、Sox2、Sox9、磷酸化 S6 和磷酸化 p70S6K 的水平增加。RNA-Seq 结果表明，抑制剂抑制了促进肿瘤的基因，同时诱导了肿瘤抑制基因。此外，在皮下和原位 GBM 肿瘤异种移植模型中进行的研究表明，CDK9 抑制剂的给药显著抑制了体内肿瘤的生长。

结论

我们的研究结果表明，CDK7 和 CDK9 靶向治疗可能对 TMZ 敏感和耐药的 GBM 有效。

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