Novel approaches to combat chemoresistance against glioblastomas  被引量：2

作　　者：Rheal A.Towner Michelle Zalles Debra Saunders Nataliya Smith 

机构地区：[1]Advanced Magnetic Resonance Center,Oklahoma Medical Research Foundation,Oklahoma City,OK 73104,USA [2]Oklahoma Center for Neuroscience,University of Oklahoma Health Sciences Center,Oklahoma City,OK 73104,USA

出　　处：《Cancer Drug Resistance》2020年第4期686-698,共13页癌症耐药（英文）

基　　金：This work was supported by the Oklahoma Medical Research Foundation,and Oblato,Inc.,as reported in published manuscripts.

摘　　要：The poor prognosis of glioblastoma multiforme(GBM)patients is in part due to resistance to current standard-of-care treatments including chemotherapy[predominantly temozolomide(TMZ;Temodar)],radiation therapy and an anti-angiogenic therapy[an antibody against the vascular endothelial growth factor(bevacizumab;Avastin)],resulting in recurrent tumors.Several recurrent GBM tumors are commonly resistant to either TMZ,radiation or bevacizumab,which contributes to the low survival rate for GBM patients.This review will focus on novel targets and therapeutic approaches that are currently being considered to combat GBM chemoresistance.One of these therapeutic options is a small molecule called OKlahoma Nitrone 007(OKN-007),which was discovered to inhibit the transforming growth factor β1 pathway,reduce TMZ-resistance and enhance TMZ-sensitivity.OKN-007 is currently an investigational new drug in clinical trials for both newly-diagnosed and recurrent GBM patients.Another novel target is ELTD1(epidermal growth factor,latrophilin and seven transmembrane domain-containing protein 1;alternatively known as ADGRL4,Adhesion G protein-coupled receptor L4),which we used a monoclonal antibody against,where a therapy against it was found to inhibit Notch 1 in a pre-clinical GBM xenograft model.Notch 1 is known to be associated with chemoresistance in GBM.Other potential therapeutic targets to combat GBM chemoresistance include the phosphoinositide 3-kinase pathway,nuclear factor-κB,the hepatocyte/scatter factor(c-MET),the epidermal growth factor receptor,and the tumor microenvironment.

关 键 词：GLIOBLASTOMA pre-clinical models OKlahoma Nitrone 007 transforming growth factor-β1 ELTD1 magnetic resonance imaging 

分 类 号：R73[医药卫生—肿瘤]