| Literature DB >> 30343896 |
Huimin Hu1, Quanhua Mu2, Zhaoshi Bao3, Yiyun Chen4, Yanwei Liu5, Jing Chen1, Kuanyu Wang1, Zheng Wang1, Yoonhee Nam6, Biaobin Jiang7, Jason K Sa8, Hee-Jin Cho8, Nam-Gu Her8, Chuanbao Zhang9, Zheng Zhao1, Ying Zhang1, Fan Zeng1, Fan Wu1, Xun Kang10, Yuqing Liu1, Zenghui Qian1, Zhiliang Wang1, Ruoyu Huang1, Qiangwei Wang1, Wei Zhang9, Xiaoguang Qiu11, Wenbin Li10, Do-Hyun Nam12, Xiaolong Fan13, Jiguang Wang14, Tao Jiang15.
Abstract
Low-grade gliomas almost invariably progress into secondary glioblastoma (sGBM) with limited therapeutic option and poorly understood mechanism. By studying the mutational landscape of 188 sGBMs, we find significant enrichment of TP53 mutations, somatic hypermutation, MET-exon-14-skipping (METex14), PTPRZ1-MET (ZM) fusions, and MET amplification. Strikingly, METex14 frequently co-occurs with ZM fusion and is present in ∼14% of cases with significantly worse prognosis. Subsequent studies show that METex14 promotes glioma progression by prolonging MET activity. Furthermore, we describe a MET kinase inhibitor, PLB-1001, that demonstrates remarkable potency in selectively inhibiting MET-altered tumor cells in preclinical models. Importantly, this compound also shows blood-brain barrier permeability and is subsequently applied in a phase I clinical trial that enrolls MET-altered chemo-resistant glioma patients. Encouragingly, PLB-1001 achieves partial response in at least two advanced sGBM patients with rarely significant side effects, underscoring the clinical potential for precisely treating gliomas using this therapy.Entities:
Keywords: MET tyrosine-kinase inhibitor; PLB-1001; cancer genomics; clinical trial; data science; precision neuro-oncology; secondary glioblastomas
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Year: 2018 PMID: 30343896 DOI: 10.1016/j.cell.2018.09.038
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582