Purpose:Our previous study has shown that PTPRZ1-MET(ZM)fusion is a viable target for MET inhibitors in gliomas.However,the diversity and prevalence of somatic MET alterations in difuse gliomas are still elusive and n...Purpose:Our previous study has shown that PTPRZ1-MET(ZM)fusion is a viable target for MET inhibitors in gliomas.However,the diversity and prevalence of somatic MET alterations in difuse gliomas are still elusive and need to be extensively characterized for identifying novel therapeutic targets.Methods:Totally,1,350 glioma patients and 31 patient-derived cells were collected from the Chinese Glioma Genome Atlas(CGGA)and published data.All kinds of MET fusions and/or splicing variants(MET F/SVs)were identifed by bioinformatical methods.Single-cell RNA sequencing(scRNA-seq)were used for validation.In vitro experiments of drug resistance were conducted for the possibility of MET-targeted treatment.Results:MET F/SVs but not genomic amplifcation,were highly enriched in the secondary glioblastomas(sGBM)and marked worse prognosis.Further molecular and scRNA-seq analysis revealed that MET F/SVs were induced in the course of glioma evolution and highly associated with MET overexpression.Subsequent in vitro and the clinical study showed that cells and patients harboring MET F/SVs have better response to MET inhibitors.Conclusion:Our fndings expanded the percentage of gliomas with abnormal MET alterations and suggested that a subgroup of gliomas harboring MET F/SVs may beneft from MET-targeted therapy.展开更多
基金supported by grants from the Natural Science Foundation of China (NSFC)/Research Grants Council (RGC),Hong Kong,China Joint Research Scheme (81761168038)the National Natural Science Foundation of China (81802994,81903078,81972337,81972816,82002647,82192894,82103623,and 82002994)+3 种基金the Mainland-Hong Kong Joint Funding Scheme ITC grant MHP/004/19 and MOST grant 2019YFE0109400the Beijing Natural Science Foundation (JQ20030)Sino-German Center for Research Promotion (M-0020)the Beijing Nova Program (Z201100006820118).
文摘Purpose:Our previous study has shown that PTPRZ1-MET(ZM)fusion is a viable target for MET inhibitors in gliomas.However,the diversity and prevalence of somatic MET alterations in difuse gliomas are still elusive and need to be extensively characterized for identifying novel therapeutic targets.Methods:Totally,1,350 glioma patients and 31 patient-derived cells were collected from the Chinese Glioma Genome Atlas(CGGA)and published data.All kinds of MET fusions and/or splicing variants(MET F/SVs)were identifed by bioinformatical methods.Single-cell RNA sequencing(scRNA-seq)were used for validation.In vitro experiments of drug resistance were conducted for the possibility of MET-targeted treatment.Results:MET F/SVs but not genomic amplifcation,were highly enriched in the secondary glioblastomas(sGBM)and marked worse prognosis.Further molecular and scRNA-seq analysis revealed that MET F/SVs were induced in the course of glioma evolution and highly associated with MET overexpression.Subsequent in vitro and the clinical study showed that cells and patients harboring MET F/SVs have better response to MET inhibitors.Conclusion:Our fndings expanded the percentage of gliomas with abnormal MET alterations and suggested that a subgroup of gliomas harboring MET F/SVs may beneft from MET-targeted therapy.
