A first-in-human pharmacodynamic evaluation of dual polyamine depletion for patients with high-grade gliomas.

Abstract

TPS2082 Background: No drug has improved survival for patients with high-grade gliomas (HGGs) since temozolomide in 2005. Relatively little is known about the live response of in situ gliomas to therapeutic intervention. Phase 0 studies that leverage access to the live human glioma in situ, including via microdialysis to sample the live glioma microenvironment, provide an attractive and feasible solution to this problem. We performed intraoperative microdialysis to evaluate the extracellular metabolome of divergent regions in 15 HGG resections. Our data revealed a conserved metabolic signature of HGGs and a novel glioma-associated metabolite, guanidinoacetate (GAA). Pathways enriched in this tumor signature included methionine and polyamine metabolism. Although GAA is typically converted to creatine, we hypothesize that the high flux of ornithine through ornithine decarboxylase (ODC) results in excess GAA accumulation. As such, in a Phase 0 trial, we will evaluate in situ glioma responses to polyamine depletion via ODC inhibition (Difluoromethylornithine, DFMO), with or without blockade of polyamine uptake (AMXT 1501), to identify candidate extracellular biomarkers of target engagement and cytotoxicity. Methods: Patients will be recruited who are undergoing a clinically indicated subtotal resection for a known or suspected high-grade glioma (NCT05717153). At the end of the surgery, two microdialysis catheters will be implanted for post-operative microdialysis, one in residual tumor and one in brain adjacent to tumor for an internal control. Beginning on post-operative day (POD) 1, patients will be randomized to one of the following three groups, including administration of vehicle, DFMO (500 mg, PO, BID) and AMXT 1501 (600 mg, PO, BID): 1) DFMO + AMXT 1501 (POD1-5); 2) Vehicle (POD1–POD2), followed by DFMO + AMXT 1501 (POD3-POD5); 3) DFMO alone (POD1–POD2), followed by DFMO + AMXT 1501 (POD3- POD5). Throughout this time, extracellular metabolite levels of polyamines, guanidinoacetate, and glutamate will be quantified from microdialysate collected every two hours from intraoperatively implanted 100 kDA microdialysis catheters. The primary outcome of this study is to determine how polyamine depletion impacts extracellular intratumoral guanidinoacetate abundance. The secondary outcomes of this study are to (1) determine the impact of polyamine depletion on polyamine abundance and the global extracellular metabolome within live human gliomas, in situ, and (2) assess the feasibility of longitudinal microdialysis for pharmacodynamic analysis within live human gliomas in situ in the post-operative setting. Clinical trial information: NCT05717153 .