Background: Malignant gliomas represent a heterogenous group of brain cancers that are characterized by infiltrative growth that lacks a clearly identifiable tumor border. The lack of the possibility of radical surgical resection and targeted therapy results in a poor prognosis. Although Temozolomide (TMZ) is still the leading chemotherapeutic agent in glioma treatment, its efficacy is limited due to the development of tumor resistance. Therefore, there an urgent need to improve the diagnosis and treatment of these tumors. Finding and developing biomarkers that are specific to glioma could be useful for both identifying therapy targets and monitoring treatment as well as for constructing a personalized therapy. However, there are still no reliable markers that would change the quality of glioma treatment.
Methods: In this study, differences in the expression of 84 cancer-related proteins in three glioma cell lines were analyzed using the dot-blot method: commercial T98G cells and two patient-derived cell lines. The influence of TMZ on changes in protein expression, cell morphology, and migration was also investigated (Proteome Profiler Human XL Oncology Array, LeviCell System, Microscopic imaging). The lines that were analyzed were characterized by a remarkably different plasticity of protein expression and the proteomic alterations that were induced by TMZ.
Results: A dot-blot analysis revealed ten proteins that were common to all of the lines and five (Cathepsin b, FGF, Survivin, AXL, Osteopontin) that were modulated by the TMZ. As a result of the exposure of TMZ, the proteins that are involved in chemoresistance and invasion (TIE-2, Thrombospondin) were detected in both the HROG02 and T98G cell lines. In the control culture (not exposed to TMZ) of HROG17 cells, the proteins that are involved in metabolism were strongly suppressed.
Conclusions: The presented data sheds new light on the modulatory effect of Temozolomide on the expression of a protein panel: Cathepsin b, fibroblast growth factor (FGF), Survivin, AXL, and Osteopontin that may suggest their potential as therapeutic targets or biomarkers to monitoring therapy effects. However, further high-throughput analysis and detection of the proteins in the body fluids are necessary.
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