Objective:Temozolomide(TMZ)is commonly used for glioblastoma multiforme(GBM)chemotherapy.However,drug resistance limits its therapeutic effect in GBM treatment.RNA-binding proteins(RBPs)have vital roles in posttranscr...Objective:Temozolomide(TMZ)is commonly used for glioblastoma multiforme(GBM)chemotherapy.However,drug resistance limits its therapeutic effect in GBM treatment.RNA-binding proteins(RBPs)have vital roles in posttranscriptional events.While disturbance of RBP-RNA network activity is potentially associated with cancer development,the precise mechanisms are not fully known.The SNRPG gene,encoding small nuclear ribonucleoprotein polypeptide G,was recently found to be related to cancer incidence,but its exact function has yet to be elucidated.Methods:SNRPG knockdown was achieved via short hairpin RNAs.Gene expression profiling and Western blot analyses were used to identify potential glioma cell growth signaling pathways affected by SNRPG.Xenograft tumors were examined to determine the carcinogenic effects of SNRPG on glioma tissues.Results:The SNRPG-mediated inhibitory effect on glioma cells might be due to the targeted prevention of Myc and p53.In addition,the effects of SNRPG loss on p53 levels and cell cycle progression were found to be Myc-dependent.Furthermore,SNRPG was increased in TMZ-resistant GBM cells,and downregulation of SNRPG potentially sensitized resistant cells to TMZ,suggesting that SNRPG deficiency decreases the chemoresistance of GBM cells to TMZ via the p53 signaling pathway.Our data confirmed that SNRPG suppression sensitizes GBM cells to TMZ by targeting Myc via the p53 signaling cascade.Conclusions:These results indicated that SNRPG is a probable molecular target of GBM and suggested that suppressing SNRPG in resistant GBM cells might be a substantially beneficial method for overcoming essential drug resistance.展开更多
基金supported by grants from National Natural Science Foundation of China(Grant No.81372714,81672480,81872065,and 81802506)Liaoning Provincial Natural Science Foundation of China(Grant No.201602244)+3 种基金Liaoning Province Innovation Talents Support Program in Colleges and Universities(Grant No.LR2016023)Distinguished Professor Project of Liaoning ProvinceSpecial Grant for Translational Medicine,Dalian Medical University(Grant No.2015002)Basic Research Projects in Colleges and Universities of Liaoning Province(Grant No.LQ2017033)。
文摘Objective:Temozolomide(TMZ)is commonly used for glioblastoma multiforme(GBM)chemotherapy.However,drug resistance limits its therapeutic effect in GBM treatment.RNA-binding proteins(RBPs)have vital roles in posttranscriptional events.While disturbance of RBP-RNA network activity is potentially associated with cancer development,the precise mechanisms are not fully known.The SNRPG gene,encoding small nuclear ribonucleoprotein polypeptide G,was recently found to be related to cancer incidence,but its exact function has yet to be elucidated.Methods:SNRPG knockdown was achieved via short hairpin RNAs.Gene expression profiling and Western blot analyses were used to identify potential glioma cell growth signaling pathways affected by SNRPG.Xenograft tumors were examined to determine the carcinogenic effects of SNRPG on glioma tissues.Results:The SNRPG-mediated inhibitory effect on glioma cells might be due to the targeted prevention of Myc and p53.In addition,the effects of SNRPG loss on p53 levels and cell cycle progression were found to be Myc-dependent.Furthermore,SNRPG was increased in TMZ-resistant GBM cells,and downregulation of SNRPG potentially sensitized resistant cells to TMZ,suggesting that SNRPG deficiency decreases the chemoresistance of GBM cells to TMZ via the p53 signaling pathway.Our data confirmed that SNRPG suppression sensitizes GBM cells to TMZ by targeting Myc via the p53 signaling cascade.Conclusions:These results indicated that SNRPG is a probable molecular target of GBM and suggested that suppressing SNRPG in resistant GBM cells might be a substantially beneficial method for overcoming essential drug resistance.
