Glioblastoma multiforme (GBM) is the most common and most aggressive human brain tumor. However, despite decades of basic science and clinical research, there is no quick, widely used prognostic criterion for GBM patients (except fornon-molecular parameters, such as age; lower survival is correlated with older age) and the outcome for GBM patients remains dismal, with an average survival duration of only 15 months. Thus, new innovative, mechanism-based approaches are necessary for the management of patients with GBM. We have discovered a new regulatory axis based on a novel miR-21-Sox2 axis in GBM patients and patient glioblastoma-derived stem cells through bioinformatic and biochemical studies. This axis appears to classify GBM patients into distinct classes. Based on these results, here we propose to prove or disprove the novel central hypothesis that our GBM classification based on the miR-21-Sox2 axis can produce new prognostic approaches for GBM patients and that this mechanism can also be utilized to develop more effective, less toxic "personalized" treatment regimens for GBM patient care