8123 Identification Of Glutamine Metabolism As A Druggable Therapeutic Vulnerability For Adrenocortical Carcinoma

Abstract

Abstract Disclosure: V. Chortis: None. C. Yao: None. C. Ribeiro: None. L. Kelley: None. L. Nagano: None. M. Berber: None. S. Raveenthiraraj: None. P. Vendramini: None. K. Kiseljak-Vassiliades: None. D.L. Carlone: None. M.C. Haigis: None. K.S. Borges: None. D.T. Breault: None. Dysregulation of cellular metabolism is a hallmark feature of cancer that can be targeted therapeutically but remains underexplored in adrenocortical carcinoma (ACC), despite the urgent need for improved treatments. We employed a recently developed transgenic mouse model of ACC (BPCre), driven by the two most common mutations in human ACC (β-catenin gain-of-function and p53 loss-of-function), aiming to characterize in vivo ACC metabolism at a tissue level and to identify metabolic vulnerabilities. We employed metabolomics (liquid chromatography-mass spectrometry) and transcriptomics (bulk RNA-seq) to compare tissue metabolism in spontaneous BPCre tumors with control adrenals. Polar metabolites were analyzed using a library that provides a representative cross-section of major carbon and nitrogen-handling pathways. We identified widespread dysregulation of tumor metabolism (64/175 metabolites significantly dysregulated, FDR<0.05), with the most significantly dysregulated pathways including purine and pyrimidine metabolism, proline and glutamate metabolism, glycolysis, and the pentose phosphate pathway (FDR<0.05). Orthogonal analysis by RNA-seq revealed congruent metabolic pathway alterations. Comparison of the most significantly dysregulated pathways between BPCre mouse tumors and human ACC using publicly accessible human transcriptomic datasets (TCGA and GTEx) revealed extensive overlap. Given the prominent dysregulation of several glutamine (Gln)-dependent metabolic pathways in mouse and human ACC, we hypothesized that Gln catabolism is likely to represent a targetable metabolic vulnerability in ACC. Pharmacological targeting of Gln metabolism using the Gln antagonist 6-Diazo-5-Oxo-L-Norleucine (L-DON) induced marked cytotoxicity in two cell lines derived from BPCre tumors and three human ACC cell lines (NCI-H295R, CU-ACC1-2), as assessed by cell viability and clonogenic assays. Remarkably, this effect was rescued only by nucleoside supplementation, suggesting that Gln’s contribution to de novo purine and pyrimidine biosynthesis is the critical metabolic dependency in ACC cells. Treatment with the L-DON pro-drug JHU-083, in vivo, led to marked growth inhibition of subcutaneous mouse ACC tumor implants in both immunocompetent and immunodeficient mice. As expected, tissue metabolomics of JHU-083-treated tumors confirmed extensive depletion of purine metabolites. Tumor immunophenotyping by flow cytometry revealed significantly increased infiltration with Natural Killer cells, likely potentiating the anti-tumor effect of glutamine antagonism in immunocompetent mice. JHU-083 was also effective against human NCI-H295R xenografts, in vivo. This work reveals important new insights into ACC metabolism and provides pre-clinical evidence supporting Gln antagonism as a new metabolic treatment approach for ACC. Presentation: 6/2/2024