Glutamine antagonist DRP-104 suppresses tumor growth and enhances response to checkpoint blockade in KEAP1 mutant lung cancer.
Ray G PillaiSarah E LeboeufYuan HaoConnie NewJenna L E BlumAli RashidfarrokhiShih Ming HuangChristian BahamonWarren L WuBurcu Karadal-FerrenaAlberto HerreraEllie N IvanovaMichael CrossJozef P BossowskiHongyu DingMakiko HayashiSahith RajalingamTriantafyllia KarakousiVolkan I SayinKamal M KhannaKwok-Kin WongRobert WildAristotelis TsirigosJohn T PoirierCharles M RudinShawn M DavidsonSergei B KoralovThales PapagiannakopoulosPublished in: bioRxiv : the preprint server for biology (2023)
Loss-of-function mutations in KEAP1 frequently occur in lung cancer and are associated with resistance to standard of care treatment, highlighting the need for the development of targeted therapies. We have previously shown that KEAP1 mutant tumors have increased glutamine consumption to support the metabolic rewiring associated with NRF2 activation. Here, using patient-derived xenograft models and antigenic orthotopic lung cancer models, we show that the novel glutamine antagonist DRP-104 impairs the growth of KEAP1 mutant tumors. We find that DRP-104 suppresses KEAP1 mutant tumor growth by inhibiting glutamine-dependent nucleotide synthesis and promoting anti-tumor CD4 and CD8 T cell responses. Using multimodal single-cell sequencing and ex vivo functional assays, we discover that DRP-104 reverses T cell exhaustion and enhances the function of CD4 and CD8 T cells culminating in an improved response to anti-PD1 therapy. Our pre-clinical findings provide compelling evidence that DRP-104, currently in phase 1 clinical trials, offers a promising therapeutic approach for treating patients with KEAP1 mutant lung cancer. Furthermore, we demonstrate that by combining DRP-104 with checkpoint inhibition, we can achieve suppression of tumor intrinsic metabolism and augmentation of anti-tumor T cell responses.