Bioinformatics and Computational Biology, Genentech, South San Francisco, CA 94080, USA.
Translational Oncology, Genentech, South San Francisco, CA 94080, USA.
Cell Metab. 2018 Sep 4;28(3):383-399.e9. doi: 10.1016/j.cmet.2018.06.003. Epub 2018 Jun 28.
The enzyme glutaminase (GLS1) is currently in clinical trials for oncology, yet there are no clear diagnostic criteria to identify responders. The evaluation of 25 basal breast lines expressing GLS1, predominantly through its splice isoform GAC, demonstrated that only GLS1-dependent basal B lines required it for maintaining de novo glutathione synthesis in addition to mitochondrial bioenergetics. Drug sensitivity profiling of 407 tumor lines with GLS1 and gamma-glutamylcysteine synthetase (GCS) inhibitors revealed a high degree of co-dependency on both enzymes across indications, suggesting that redox balance is a key function of GLS1 in tumors. To leverage these findings, we derived a pan-cancer metabolic signature predictive of GLS1/GCS co-dependency and validated it in vivo using four lung patient-derived xenograft models, revealing the additional requirement for expression of GAC above a threshold (logRPKM + 1 ≥ 4.5, where RPKM is reads per kilobase per million mapped reads). Analysis of the pan-TCGA dataset with our signature identified multiple indications, including mesenchymal tumors, as putative responders to GLS1 inhibitors.
谷氨酰胺酶(GLS1)目前正在进行肿瘤学的临床试验,但尚无明确的诊断标准来识别应答者。对 25 条表达 GLS1 的基础乳腺系进行评估,主要通过其剪接异构体 GAC,表明只有依赖 GLS1 的基础 B 系除了需要线粒体生物能之外,还需要其维持从头合成谷胱甘肽。对 407 条具有 GLS1 和γ-谷氨酰半胱氨酸合成酶(GCS)抑制剂的肿瘤系进行药物敏感性分析表明,两种酶在不同适应症中有高度的共同依赖性,这表明氧化还原平衡是肿瘤中 GLS1 的关键功能。为了利用这些发现,我们推导了一个泛癌代谢特征,可以预测 GLS1/GCS 的共同依赖性,并在四个肺患者来源的异种移植模型中进行了体内验证,揭示了在阈值以上表达 GAC 的额外要求(logRPKM+1≥4.5,其中 RPKM 是每百万映射读数的每千碱基读取数)。使用我们的特征对泛 TCGA 数据集进行分析,确定了多个适应症,包括间充质肿瘤,可能对 GLS1 抑制剂有反应。
