Abstract AIMS Glioblastoma (GB) is one of the most aggressive malignancies of the brain and spinal cord. Current standard of care has remained surgical resection of the tumour, followed by radiotherapy and/or chemotherapy. Crucial challenges in the effective treatment of GB include resistance to the main chemotherapeutic, temozolomide. Prognosis is poor with median survival remaining at 14.6 months. A now established hallmark of cancer is the ability of malignant cells to “modify, or reprogram, cellular metabolism”, such as glycolysis upregulation. This hallmark could suggest the potential of targeting a specific metabolic component within glycolysis, thus reduce energy production, resulting in possible apoptosis/suppressed proliferation. Glycogen phosphorylase (GP), an enzyme in glyconeolysis, could be inhibited for a therapeutic effect in GB. In this project, GP levels across the three different isoforms (PYGB, PYGL, and PYGM) and the effect of the GP inhibitor CP-91149 was investigated across three different GB cell lines. METHOD Cell viability of T98G, U251-MG, and U87-MG glioblastoma cell lines and SVGp19 human fetal glial cell line was measured after administration of CP-91149 for 24, 48, and 72 hours. Migration of T98G and U251 cells following treatment with CP-91149 was measured in a wound healing assay. Visualisation of the three GP isoforms was achieved through western blot and confirmed by immunocytochemistry. Flow cytometry was utilized to expand analysis on GP inhibition through assessing cell cycle before and after treatments. RESULTS Results showed CP-91149 had a significant dose-dependent effect in vitro on all cell lines. Inhibition of GP resulted in reduced cell migration, also in a dose-dependent manner. Western blot and immunocytochemistry analysis showed PYGL is the most predominant isoform of GP. CONCLUSION Future work in this project will aim to silence expression of GP in GB cell lines in order to compare the results with that yielded from cells treated with the GP inhibitor CP-91149.
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