Abstract
Radioresistance remains a major challenge in the treatment of glioblastoma multiforme (GBM). Recent data strongly suggests the important role of miRNAs in cancer progression and therapeutic response. Here, we have established a radioresistant human GBM cell line U87R derived from parental U87 and found miR-135b expression was upregulated in U87R cells. miR-135b knockdown reversed radioresistance of U87R cells, and miR-135b overexpression enhanced radioresistance of U87 cells. Mechanically, bioinformatics analysis combined with experimental analysis demonstrated GSK3β (Glycogen synthase kinase 3 beta) was a novel direct target of miR-135b. Moreover, GSK3β protein expression was downregulated in U87R cells and restored expression of GSK3β increased radiosensitivity of U87R cells. In addition, clinical data indicated that the expression of miR-135b or GSK3β was significantly association with IR resistance of GBM samples. Our findings suggest miR-135b is involved in the radioresistance of human GBM cells and miR-135b-GSK3β axis may be a novel candidate for developing rational therapeutic strategies for human GBM treatment.
Highlights
Gliomas are the most common type of primary brain tumors in adults and persist as serious clinical and scientific problems [1]
In the present study, compared to its parental cell line U87, we show miR-135b is upregulated in radioresistant human glioblastoma multiforme (GBM) cell line U87R, which targets Glycogen synthase kinase 3 beta (GSK3b)
Our findings suggest that miR-135b and GSK3b are potential biomarkers to estimate the sensitivity of human GBM to radiotherapy and help to developing rational therapeutic strategies
Summary
Gliomas are the most common type of primary brain tumors in adults and persist as serious clinical and scientific problems [1]. Survival depends heavily on the histological grade of the tumor, but patients afflicted with the most malignant glioma, glioblastoma multiforme (GBM). Despite advances in current multi-modal treatment options, the overall prognosis of patients with GBM remains dismal [2]. These include rapidness and invasiveness of tumor growth, the genetic heterogeneity of the tumors, and our poor understanding of the molecular mechanisms governing disease manifestation and progression [3,4]. The molecular mechanisms responsible for the radioresistance of human GBM are still not clear yet
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