Tumors induce de novo steroid biosynthesis in T cells to evade immunity

A Draghi; A Hodgkins; A Kranz; A Pedroza-Gonzalez; A Slominski; A Suarez; AC Anderson; AE Casey; AJ Giles; B Langmead; B Mahata; BC Sheu; C Aspord; C Linnemann; CM Connell; CM Della Corte; CN Johnstone; D Belelli; D Bogunovic; D Hanahan; D Hanahan; D Zamarin; DG DeNardo; DS Vinay; DW Cain; F Van Laethem; FO Martinez; G Landskron; G Wei; GL Beatty; H Maeda; I Cima; I Mellman; I Papatheodorou; IH Heijink; J Desbarats; J Kisielow; J Li; J Pramanik; JD Buenrostro; JR Gordon; KC Arbour; L De Monte; L Piemonti; L van der Weyden; LM Coussens; M Kobayashi; MA Curran; ML Disis; MMS Obradovic; MP Protti; MS Vacchio; N Hostettler; O De Henau; P Sinha; S Picelli; SL Klein; SL Shiao; T Rhen; T Roszer; TR Flint; TR Medler; WC Skarnes; WJ Kent; WL Miller; WL Miller; X Chen; Y Hu; Y Zhang

Tumors induce de novo steroid biosynthesis in T cells to evade immunity

Abstract

Abstract: Tumors subvert immune cell function to evade immune responses, yet the complex mechanisms driving immune evasion remain poorly understood. Here we show that tumors induce de novo steroidogenesis in T lymphocytes to evade anti-tumor immunity. Using a transgenic steroidogenesis-reporter mouse line we identify and characterize de novo steroidogenic immune cells, defining the global gene expression identity of these steroid-producing immune cells and gene regulatory networks by using single-cell transcriptomics. Genetic ablation of T cell steroidogenesis restricts primary tumor growth and metastatic dissemination in mouse models. Steroidogenic T cells dysregulate anti-tumor immunity, and inhibition of the steroidogenesis pathway is sufficient to restore anti-tumor immunity. This study demonstrates T cell de novo steroidogenesis as a mechanism of anti-tumor immunosuppression and a potential druggable target