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Opposing immune and genetic mechanisms shape oncogenic programs in synovial sarcoma.

Livnat JerbyCyril NeftelMarni E ShoreHannah R WeismanNathan D MathewsonMatthew J McBrideBrian HaasBenjamin IzarAngela VolorioGaylor BoulayLuisa CironiAlyssa R RichmanLiliane C BroyeJoseph M GurskiChristina C LuoRavindra MylvaganamLan NguyenShaolin MeiJohannes C MelmsChristophe GeorgescuOfir CohenJorge E Buendia-BuendiaAsa SegerstolpeMalika SudMichael S CuocoDanny LabesSimon GritschDaniel R ZollingerNicole OrtogeroJoseph M BeechemG Petur NielsenIvan ChebibTu Nguyen-NgocMichael MontemurroGregory M CoteEdwin ChoyIgor LetovanecStephane CherixNikhil WaglePeter Karl SorgerAlex B HaynesJohn T MullenIvan StamenkovicMiguel N RiveraCigall KadochKai W WucherpfennigOrit Rozenblatt-RosenMario L SuvàNicolò RiggiAviv Regev
Published in: Nature medicine (2021)
Synovial sarcoma (SyS) is an aggressive neoplasm driven by the SS18-SSX fusion, and is characterized by low T cell infiltration. Here, we studied the cancer-immune interplay in SyS using an integrative approach that combines single-cell RNA sequencing (scRNA-seq), spatial profiling and genetic and pharmacological perturbations. scRNA-seq of 16,872 cells from 12 human SyS tumors uncovered a malignant subpopulation that marks immune-deprived niches in situ and is predictive of poor clinical outcomes in two independent cohorts. Functional analyses revealed that this malignant cell state is controlled by the SS18-SSX fusion, is repressed by cytokines secreted by macrophages and T cells, and can be synergistically targeted with a combination of HDAC and CDK4/CDK6 inhibitors. This drug combination enhanced malignant-cell immunogenicity in SyS models, leading to induced T cell reactivity and T cell-mediated killing. Our study provides a blueprint for investigating heterogeneity in fusion-driven malignancies and demonstrates an interplay between immune evasion and oncogenic processes that can be co-targeted in SyS and potentially in other malignancies.
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