Haeusser Lara Annina, Becker Hannes, Kuhlburger Laurence, Zago Marcello, Walter Bianca, Tsiami Foteini, Erdmann Sarah, Trampert Jil, Surender Surender, Stahl Aaron, Templin Markus, Wegner Eileen, Schmidt Tobias, Schmees Christian, Casadei Nicolas, Sevenich Lisa, Claassen Manfred, Nahnsen Sven, Beck Susanne, Merk Daniel Josef, Tabatabai Ghazaleh
Cluster of Excellence (EXC 2180) "Image-Guided and Functionally Instructed Tumor Therapies", Eberhard Karls University of Tübingen, Tübingen, Germany.
German Cancer Consortium (DKTK), DKFZ Partner Site Tübingen, Tübingen, Germany.
Neuro Oncol. 2025 May 15;27(4):916-931. doi: 10.1093/neuonc/noae278.
Registered systemic treatment options for glioblastoma patients are limited. The phase II REGOMA trial suggested an improvement of median overall survival in progressive glioblastoma by the multi-tyrosine kinase inhibitor regorafenib. This has not been confirmed by GBM AGILE. So far, regorafenib has been administered as monotherapy or as an addition to standard of care in newly diagnosed glioblastoma. Rational combination therapies involving regorafenib might be a reasonable strategy. Here, we aimed at identifying functionally instructed combination therapies involving regorafenib.
We applied a genome-wide CRISPR-Cas9-based functional genomics target discovery approach using activation and knockout screens followed by genetic, pharmacological, functional validations. Regorafenib-induced molecular alterations were assessed by RNA sequencing and DigiWest. We investigated selected functionally instructed combination therapies in three orthotopic glioma mouse models in vivo (syngeneic SMA560/VM/Dk model and two xenograft models) and performed immunohistochemistry of post-treatment brains.
We identified potential modifiers of regorafenib response, including BCL2, BCL2L1, ITGB3, FOXC1, SERAC1, ARAF, and PLCE1. The combination of regorafenib with Bcl-2/Bcl-xL inhibition was superior to both monotherapies alone in vitro, ex vivo, and in vivo. We identified regorafenib-induced regulations of the Bcl-2 downstream target chemokine receptor 1 (CCR1) as one potential underlying molecular mediator. Furthermore, regorafenib led to changes in the myeloid compartment of the glioma-associated microenvironment.
This preclinical study uses a functional genomics-based target discovery approach with subsequent validations involving regorafenib. It serves as a biological rationale for clinical translation. Particularly, an investigation of the combination of regorafenib plus navitoclax within a clinical trial is warranted.
胶质母细胞瘤患者的注册系统性治疗选择有限。II期REGOMA试验表明,多酪氨酸激酶抑制剂瑞戈非尼可改善进展性胶质母细胞瘤患者的中位总生存期。但GBM AGILE试验尚未证实这一点。到目前为止,瑞戈非尼已被用于新诊断胶质母细胞瘤的单药治疗或作为标准治疗的补充。涉及瑞戈非尼的合理联合治疗可能是一种合理策略。在此,我们旨在确定涉及瑞戈非尼的功能指导联合治疗方案。
我们应用基于全基因组CRISPR-Cas9的功能基因组学靶点发现方法,通过激活和敲除筛选,随后进行基因、药理学和功能验证。通过RNA测序和DigiWest评估瑞戈非尼诱导的分子改变。我们在三种原位胶质瘤小鼠模型(同基因SMA560/VM/Dk模型和两种异种移植模型)中体内研究了选定的功能指导联合治疗方案,并对治疗后的大脑进行免疫组化分析。
我们确定了瑞戈非尼反应的潜在调节因子,包括BCL2、BCL2L1、ITGB3、FOXC1、SERAC1、ARAF和PLCE1。在体外、离体和体内,瑞戈非尼与Bcl-2/Bcl-xL抑制联合使用均优于两种单药治疗。我们确定瑞戈非尼诱导的Bcl-2下游靶点趋化因子受体1(CCR1)的调节是一种潜在的分子介导机制。此外,瑞戈非尼导致胶质瘤相关微环境的髓样区室发生变化。
这项临床前研究采用基于功能基因组学的靶点发现方法,随后对瑞戈非尼进行验证。它为临床转化提供了生物学依据。特别是,在临床试验中对瑞戈非尼加维托西克拉的联合用药进行研究是有必要的。
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