Tailoring glioblastoma treatment based on longitudinal analysis of post-surgical tumor microenvironment.

IF 11.4 1区 医学 Q1 ONCOLOGY
Chiara Bastiancich, Emmanuel Snacel-Fazy, Samantha Fernandez, Stéphane Robert, Roberta Stacchini, Léa Plantureux, Sébastien Boissonneau, Benoit Testud, Benjamin Guillet, Franck Debarbieux, Hervé Luche, Dominique Figarella-Branger, Marie-Anne Estève, Emeline Tabouret, Aurélie Tchoghandjian
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引用次数: 0

Abstract

Glioblastoma (GBM), an incurable primary brain tumor, typically requires surgical intervention followed by chemoradiation; however, recurrences remain fatal. Our previous work demonstrated that a nanomedicine hydrogel (GemC12-LNC) delays recurrence when administered post-surgery. However, tumor debulking also triggers time-dependent immune reactions that promote recurrence at the resection cavity borders. We hypothesized that combining the hydrogel with an immunomodulatory drug could enhance therapeutic outcomes. A thorough characterization of the post-surgical microenvironment (SMe) is crucial to guide combinatorial approaches.In this study, we performed cellular resolution imaging, flow cytometry and spatial hyperplexed immunofluorescence imaging to characterize the SMe in a syngeneic mouse model of tumor resection. Owing to our dynamic approach, we observed transient opening of the blood-brain barrier (BBB) during the first week after surgery. BBB permeability post-surgery was also confirmed in GBM patients. In our murine model, we also observed changes in immune cell morphology and spatial location post-surgery over time in resected animals as well as the accumulation of reactive microglia and anti-inflammatory macrophages in recurrences compared to unresected tumors since the first steps of recurrence growth. Therefore we investigated whether starting a systemic treatment with the SMAC mimetic small molecule (GDC-0152) directly after surgery would be beneficial for enhancing microglial anti-tumoral activity and decreasing the number of anti-inflammatory macrophages around the GemC12-LNC hydrogel-loaded tumor cavity. The immunomodulatory effects of this drug combination was firstly shown in patient-derived tumoroids. Its efficacy was confirmed in vivo by survival analysis and correlated with reversal of the immune profile as well as delayed tumor recurrence.This comprehensive study identified critical time frames and immune cellular targets within the SMe, aiding in the rational design of combination therapies to delay recurrence onset. Our findings suggest that post-surgical systemic injection of GDC-0152 in combination with GemC12-LNC local treatment is a promising and innovative approach for managing GBM recurrence, with potential for future translation to human patient.

根据手术后肿瘤微环境的纵向分析,定制胶质母细胞瘤的治疗方法。
胶质母细胞瘤(GBM)是一种无法治愈的原发性脑肿瘤,通常需要手术治疗,然后进行化疗;然而,复发仍然是致命的。我们之前的研究表明,纳米药物水凝胶(GemC12-LNC)在手术后给药可延缓复发。然而,肿瘤剥离也会引发时间依赖性免疫反应,促进切除腔边界的复发。我们假设,将水凝胶与免疫调节药物结合可提高治疗效果。在这项研究中,我们通过细胞分辨率成像、流式细胞术和空间超复合免疫荧光成像来描述肿瘤切除术后合成小鼠模型中的微环境(SMe)。由于我们采用的是动态方法,我们观察到血脑屏障(BBB)在术后第一周短暂开放。GBM 患者手术后血脑屏障的通透性也得到了证实。在我们的小鼠模型中,我们还观察到切除动物手术后免疫细胞形态和空间位置随时间发生的变化,以及自复发生长的第一步起,与未切除肿瘤相比,复发肿瘤中反应性小胶质细胞和抗炎巨噬细胞的积累。因此,我们研究了手术后直接开始使用 SMAC 拟效小分子(GDC-0152)进行全身治疗是否有利于增强小胶质细胞的抗肿瘤活性,并减少 GemC12-LNC 水凝胶负载瘤腔周围抗炎巨噬细胞的数量。这种药物组合的免疫调节作用首次在患者来源的肿瘤组织中显示出来。这项综合研究确定了SMe的关键时间框架和免疫细胞靶点,有助于合理设计联合疗法以推迟复发。我们的研究结果表明,手术后全身注射GDC-0152与GemC12-LNC局部治疗相结合是治疗GBM复发的一种前景广阔的创新方法,未来有可能应用于人类患者。
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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来源期刊
CiteScore
18.20
自引率
1.80%
发文量
333
审稿时长
1 months
期刊介绍: The Journal of Experimental & Clinical Cancer Research is an esteemed peer-reviewed publication that focuses on cancer research, encompassing everything from fundamental discoveries to practical applications. We welcome submissions that showcase groundbreaking advancements in the field of cancer research, especially those that bridge the gap between laboratory findings and clinical implementation. Our goal is to foster a deeper understanding of cancer, improve prevention and detection strategies, facilitate accurate diagnosis, and enhance treatment options. We are particularly interested in manuscripts that shed light on the mechanisms behind the development and progression of cancer, including metastasis. Additionally, we encourage submissions that explore molecular alterations or biomarkers that can help predict the efficacy of different treatments or identify drug resistance. Translational research related to targeted therapies, personalized medicine, tumor immunotherapy, and innovative approaches applicable to clinical investigations are also of great interest to us. We provide a platform for the dissemination of large-scale molecular characterizations of human tumors and encourage researchers to share their insights, discoveries, and methodologies with the wider scientific community. By publishing high-quality research articles, reviews, and commentaries, the Journal of Experimental & Clinical Cancer Research strives to contribute to the continuous improvement of cancer care and make a meaningful impact on patients' lives.
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