阻断PD1/PDL1相互作用联合MLN4924治疗是治疗胶质瘤的潜在策略。

Journal of Cancer Science & Therapy Pub Date : 2018-01-01 Epub Date: 2018-08-06 DOI:10.4172/1948-5956.1000543
Natalia Filippova, Xiuhua Yang, Zixiao An, Louis B Nabors, Larisa Pereboeva
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引用次数: 22

摘要

目的:MLN4924是一种抑制cullin类化修饰的药物抑制剂,可导致胶质瘤细胞凋亡,抑制DNA合成的s期,因此在脑肿瘤的治疗中具有很大的潜力。然而,用MLN4924靶向类化修饰通路稳定了低氧诱导因子1A (HIF1A), HIF1A是癌细胞中免疫检查点分子PDL1(程序性死亡配体-1)的主要转录增强子之一。免疫检查点分子对胶质瘤进展的影响最近才被发现;胶质瘤中PDL1的过表达与患者生存期的显著缩短和抗肿瘤免疫反应的降低相对应。我们假设i)在MLN4924治疗后,PDL1在胶质瘤中上调并诱导t细胞能量;ii) PD1/PDL1阻断与MLN4924治疗的共同利用可能降低t细胞能量,并可能参与MLN4924诱导的肿瘤破坏与免疫反应。方法:采用免疫组织化学、分子生物学和生物化学等方法,评价MLN4924在胶质瘤、胶质瘤微环境和治疗后PDL1的表达及其免疫抑制作用。结果:我们证实PDL1在临床脑肿瘤样本、PDGx和已建立的胶质瘤细胞系、胶质瘤细胞的细胞外介质和荷瘤小鼠脑脊液样本中过表达。我们基于原代t细胞的实验证实,肿瘤细胞中PDL1的上调可以保护胶质瘤免受t细胞的治疗,并降低t细胞的活化。我们发现cullin类化修饰的药理学抑制剂MLN4924在体外对PDGx和已建立的胶质瘤细胞系表现出很强的细胞毒性,其IC50范围为0.2至3 uM。然而,我们观察到MLN4924处理后,所有胶质瘤细胞系中HIF1A和PDL1的mRNA和蛋白水平显著增加。在胶质瘤中,依赖mln4924的PDL1诱导导致t细胞能量,这被PD1/PDL1相互作用的阻断所阻断。结论:1)胶质瘤及胶质瘤微环境中PDL1上调是重要的化疗靶点;ii) MLN4924疗法联合阻断PD1/PDL1通路,应被视为治疗胶质瘤的潜在策略。
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Blocking PD1/PDL1 Interactions Together with MLN4924 Therapy is a Potential Strategy for Glioma Treatment.

Objective: MLN4924, a pharmacological inhibitor of cullin neddylation, resulted in glioma cell apoptosis, deregulation of the S-phase of DNA synthesis and thus, offers great potential for the treatment of brain tumours. However, targeting the neddylation pathway with an MLN4924 treatment stabilized the hypoxia-inducible factor 1A (HIF1A), which is one of the main transcriptional enhancers of the immune checkpoint molecule PDL1 (programmid death ligand-1) in cancer cells. The influence of immune checkpoint molecules on glioma progression has recently been discovered; PDL1 overexpression in gliomas corresponds to a significant shortening of patient survival and a decrease of the anti-tumour immune response. We hypothesize that i) PDL1 is up-regulated in gliomas after treatment with MLN4924 and induces T-cell energy; ii) co-utilization of the PD1/PDL1 blockage with MLN4924 therapy may reduce T-cell energy and may engage MLN4924-induced tumour disruption with the immune response.

Methods: PDL1 expression and its immunosuppressive role in gliomas, glioma microenvironments, and after treatments with MLN4924 were assessed by utilizing methods of immunohistochemistry, molecular biology, and biochemistry.

Results: We confirmed PDL1 overexpression in clinical brain tumour samples, PDGx and established glioma cell lines, extracellular media from glioma cells, and CSF (cerebrospinal fluid) samples from tumour-bearing mice. Our primary T-cell based assays verified that the up-regulation of PDL1 in tumour cells protects gliomas from T-cell treatment and reduces T-cell activation. We found that a pharmacological inhibitor of cullin neddylation, MLN4924, exhibited strong cytotoxicity towards PDGx and established glioma cell lines, in vitro, with an IC50's range from 0.2 to 3 uM. However, we observed a significant increase of HIF1A and PDL1 in mRNA and protein levels in all glioma cell lines after treatment with MLN4924. The MLN4924-dependent induction of PDL1 in gliomas resulted in T-cell energy, which was blocked by a blockage of the PD1/PDL1 interaction.

Conclusion: We conclude that i) PDL1 up-regulation in gliomas and the glioma microenvironment is an important chemotherapeutic target; ii) MLN4924 therapy, combined with a blockage of the PD1/PDL1 pathway, should be considered as a potential strategy for glioma treatment.

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