Departments of Cancer Biology and Pediatric Oncology, Dana-Farber Cancer Institute, Boston, Massachusetts, USA.
Department of Neurobiology, Harvard Medical School, Boston, Massachusetts, USA.
Neuro Oncol. 2019 Sep 6;21(9):1150-1163. doi: 10.1093/neuonc/noz089.
Medulloblastoma (MB) is one of the most frequent malignant brain tumors of children, and a large set of these tumors is characterized by aberrant activation of the sonic hedgehog (SHH) pathway. While some tumors initially respond to inhibition of the SHH pathway component Smoothened (SMO), tumors ultimately recur due to downstream resistance mechanisms, indicating a need for novel therapeutic options.
Here we performed a targeted small-molecule screen on a stable, SHH-dependent murine MB cell line (SMB21). Comprehensive isotype profiling of histone deacetylase (HDAC) inhibitors was performed, and effects of HDAC inhibition were evaluated in cell lines both sensitive and resistant to SMO inhibition. Lastly, distinct mouse models of SHH MB were used to demonstrate pharmacologic efficacy in vivo.
A subset of the HDAC inhibitors tested significantly inhibit tumor growth of SMB21 cells by preventing SHH pathway activation. Isotype profiling of HDAC inhibitors, together with genetic approaches suggested that concerted inhibition of multiple class I HDACs is necessary to achieve pathway inhibition. Of note, class I HDAC inhibitors were also efficacious in suppressing growth of diverse SMO inhibitor‒resistant clones of SMB21 cells. Finally, we show that the novel HDAC inhibitor quisinostat targets multiple class I HDACs, is well tolerated in mouse models, and robustly inhibits growth of SHH MB cells in vivo as well as in vitro.
Our data provide strong evidence that quisinostat or other class I HDAC inhibitors might be therapeutically useful for patients with SHH MB, including those resistant to SMO inhibition.
髓母细胞瘤(MB)是儿童最常见的恶性脑肿瘤之一,其中大量肿瘤表现出 Sonic Hedgehog(SHH)通路的异常激活。虽然一些肿瘤最初对 Smoothened(SMO)即 SHH 通路成分的抑制有反应,但由于下游耐药机制,肿瘤最终会复发,这表明需要新的治疗选择。
我们在此对依赖 Sonic Hedgehog(SHH)的稳定鼠 MB 细胞系(SMB21)进行了靶向小分子筛选。对组蛋白去乙酰化酶(HDAC)抑制剂进行了全面的同型谱分析,并在对 SMO 抑制敏感和耐药的细胞系中评估了 HDAC 抑制的效果。最后,使用不同的 SHH MB 鼠模型证明了体内的药理疗效。
测试的一组 HDAC 抑制剂通过阻止 SHH 通路激活,显著抑制 SMB21 细胞的肿瘤生长。HDAC 抑制剂的同型谱分析以及遗传方法表明,需要协同抑制多种 I 类 HDAC 才能实现通路抑制。值得注意的是,I 类 HDAC 抑制剂也有效抑制 SMB21 细胞的多种 SMO 抑制剂耐药克隆的生长。最后,我们表明新型 HDAC 抑制剂 quisinostat 靶向多种 I 类 HDAC,在小鼠模型中耐受性良好,并在体内和体外均能有效抑制 SHH MB 细胞的生长。
我们的数据提供了强有力的证据表明,quinostat 或其他 I 类 HDAC 抑制剂可能对 SHH MB 患者,包括对 SMO 抑制耐药的患者具有治疗作用。