Abstract
Abstract Telomerase reverse transcriptase (TERT) is essential for telomere maintenance and tumor immortality. Although TERT is an attractive therapeutic target, targeting TERT directly is hampered by toxicity to stem cells that also rely on TERT for proliferation and the lag period before telomere attrition is observed. Targeting metabolic reprogramming associated with TERT is an alternate strategy. Our studies indicate that TERT is essential for redox homeostasis in glioblastoma cells (GBM; GBM6 and U251). Specifically, TERT increases levels of glutathione (GSH) via upregulation of the catalytic subunit of glutamate-cysteine ligase (GCLC), the rate-limiting enzyme in de novo GSH synthesis. Inhibiting GCLC using buthionine sulfoximine (BSO) or siRNA reduces synthesis of 13C-GSH from [U-13C]-glutamine and inhibits viability of GBM6 and U251 cells. However, GCLC inhibition causes a compensatory increase in synthesis of glutamate, aspartate, and pyrimidine nucleotides from [U-13C]-glutamine via upregulation of two key glutamine-utilizing enzymes i.e., glutaminase (GLS), the enzyme that generates glutamate from glutamine, and carbamoyl phosphate synthetase II (CPSII), the enzyme that converts glutamine to carbamoyl phosphate during pyrimidine biosynthesis. We then examined the therapeutic potential of inhibiting GLS and CPSII in combination with GCLC in GBMs. 6-diazo-5-oxy-L-norleucin (DON), a potent inhibitor of glutamine-utilizing enzymes including GLS and CPSII, synergizes with BSO in inhibiting viability of GBM6 and U251 cells. This effect is specific to TERT-expressing GBM cells because the combination of DON and BSO does not affect viability of normal astrocytes or astrocytomas that use the ALT pathway for telomere maintenance. Importantly, in vivo stable isotope tracing confirmed that combined treatment with JHU-083 (a brain-penetrant prodrug of DON) and BSO abrogates synthesis of GSH, aspartate, and pyrimidine nucleotides from [U-13C]-glutamine and induces apoptotic death in mice bearing intracranial GBM6 tumors.Collectively, our studies highlight the therapeutic potential of targeting metabolic vulnerabilities induced by TERT expression in GBMs in vivo.
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