Abstract BACKGROUND Glioblastoma (GBM) represents the most frequently diagnosed malignant CNS tumor in adults and remains incurable. Despite the identification of several oncogenic drivers contributing to tumor formation, targeted therapy with brain-penetrant inhibitors has afforded little progress in survival outcomes. Interestingly, gender has been shown to increase the incidence of GBM, with men having roughly a 50-60% increase in incidence compared to women in the US. This statistic led to research on the involvement of and subsequent inhibition of androgen synthesis and signaling in cell culture models and tumor samples. METHODS To further investigate the potential involvement of steroidal hormones in GBM proliferation, our lab synthesized a series of norethindrone (NE) derivatives with varied molecular weights, steric bulk, and lipophilicity to modulate the androgenic activity of NE. The small library was tested in several GBM cell lines, including U87, A172, and T98G cells, using cell viability assays. RESULTS One derivative, a lipophilically modified version of NE synthesized via a one-pot click reaction, was shown to have improved potency compared with parental NE (>5-fold). The lipophilic NE derivative had IC50 value of 22 uM, 15 uM, and 35 uM in the U87, A172, and T98G cells, respectively. This molecule was tested in immortalized normal human astrocyte (NHA) cells and found to have an IC50 value of 34 uM suggesting some selectivity. DISCUSSION Given this derivative’s activity in GBM models and modest selectivity, we plan to screen it in additional GBM cell lines (LN-18 and U251) and eventually in glioma stem cell models. Future research will focus on identifying key targets involved in the mechanism of action, including the impact of lipophilic addition to the steroid nucleus and its effect on androgenic activity and downstream signaling. We will investigate these effects using RPPA and co-treatments with androgen receptor antagonists and 5-alpha reductase inhibitors.
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