一种 CK1α 激活剂可穿透大脑,并对耐药转移性髓母细胞瘤显示疗效。
A CK1α Activator Penetrates the Brain and Shows Efficacy Against Drug-resistant Metastatic Medulloblastoma.
机构信息
Molecular Oncology Program, The DeWitt Daughtry Family Department of Surgery, University of Miami, Miller School of Medicine, Miami, Florida.
StemSynergy Therapeutics Inc., Miami, Florida.
出版信息
Clin Cancer Res. 2019 Feb 15;25(4):1379-1388. doi: 10.1158/1078-0432.CCR-18-1319. Epub 2018 Nov 28.
PURPOSE
Although most children with medulloblastoma are cured of their disease, Sonic Hedgehog (SHH) subgroup medulloblastoma driven by mutations is essentially lethal. Casein kinase 1α (CK1α) phosphorylates and destabilizes GLI transcription factors, thereby inhibiting the key effectors of SHH signaling. We therefore tested a second-generation CK1α activator against -mutant, -amplified medulloblastoma.
EXPERIMENTAL DESIGN
The ability of this CK1α activator to block SHH signaling was determined using GLI reporter cells, granular precursor primary cultures, and ()-mutant sphere cultures. While efficacy was tested using 2 different medulloblastoma mouse models: and . Finally, the clinical relevance of CK1α activators was demonstrated using a -mutant, -amplified patient-derived xenograft.
RESULTS
SSTC3 inhibited SHH activity , acting downstream of the vismodegib target SMOOTHENED (SMO), and reduced the viability of sphere cultures derived from SHH medulloblastoma. SSTC3 accumulated in the brain, inhibited growth of SHH medulloblastoma tumors, and blocked metastases in a genetically engineered vismodegib-resistant mouse model of SHH medulloblastoma. Importantly, SSTC3 attenuated growth and metastasis of orthotopic patient-derived -mutant, -amplified, SHH subgroup medulloblastoma xenografts, increasing overall survival.
CONCLUSIONS
Using a newly described small-molecule, SSTC3, we show that CK1a activators could address a significant unmet clinical need for patients with SMO inhibitor-resistant medulloblastoma, including those harboring mutations in TRP53.
目的
尽管大多数患有髓母细胞瘤的儿童都能治愈,但由 突变驱动的 Sonic Hedgehog (SHH) 亚组髓母细胞瘤基本上是致命的。酪蛋白激酶 1α (CK1α) 磷酸化并使 GLI 转录因子不稳定,从而抑制 SHH 信号的关键效应物。因此,我们针对携带 突变、 扩增的髓母细胞瘤测试了第二代 CK1α 激活剂。
实验设计
使用 GLI 报告细胞、颗粒前体细胞原代培养物和 ()-突变球体培养物来确定该 CK1α 激活剂阻断 SHH 信号的能力。同时使用 2 种不同的髓母细胞瘤小鼠模型来测试 功效: 和 。最后,使用携带 突变、 扩增的患者来源异种移植来证明 CK1α 激活剂的临床相关性。
结果
SSTC3 抑制了 SHH 活性,作用于 vismodegib 靶标 SMOOTHENED (SMO) 的下游,并降低了源自 SHH 髓母细胞瘤的球体培养物的活力。SSTC3 在大脑中积累,抑制了 SHH 髓母细胞瘤肿瘤的生长,并阻断了遗传工程化的 vismodegib 耐药 SHH 髓母细胞瘤小鼠模型中的转移。重要的是,SSTC3 减弱了携带 突变、 扩增、SHH 亚组髓母细胞瘤的同源性异种移植的生长和转移,增加了总生存期。
结论
使用一种新描述的小分子 SSTC3,我们表明 CK1a 激活剂可以解决携带 SMO 抑制剂耐药性髓母细胞瘤的患者的重大未满足的临床需求,包括那些携带 TRP53 突变的患者。
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