GBM is one of the most aggressive malignancies, having the greatest fatality rate and average life years lost. The current standard medicine, temozolomide (TMZ), is ineffective, requiring the development of new treatments. However, identifying and introducing a novel medicine takes time and money. In this context, repurposing FDA-approved drugs can be a novel yet efficient alternative method. Here, we, therefore, investigated the differential expression signatures of genes of patients suffering from GBM from publicly available GEO datasets and constructed a connectivity map. Functional annotation and KEGG pathway analysis showed dysregulated molecular activities and pathways. Based on their gene ontologies, putative key genes and hub genes linked with the disease were identified, and the C-MAP database was scanned for FDA-approved medicinal compounds that could alter hub gene expression or associated pathways. Our in-silico investigation showed that Gemfibrozil (Gem) and Doxylamine (Doxy) might reverse GBM disease patterns by deregulating GBM-related genes. Evaluation of the GBM inhibitory potential of these drugs through in-vitro and three-dimensional spheroid assay showed promising results. These drugs were more cytotoxic than TMZ; however, they synergised with TMZ as well. Interestingly, the cellular homeostatic process autophagy which has been implicated significantly in GBM pathogenesis and therapy resistance, was found to be inhibited by the drugs Gemfibrozil and Doxylamine, signifying their prospective potential. Therefore, in this study, we, for the first time, identify drugs with the ability to cross the blood brain barrier (BBB), with potential cytotoxic effects beyond TMZ, and with autophagy inhibitory potential, which can be further explored for repurposing against GBM.
Keywords: Autophagy; Disease reversal; Drug repurposing; Glioblastoma multiform; Temozolomide.
© 2025. The Author(s).