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Tumor evolution selectively inactivates the core microRNA machinery for immune evasion

Tianyu Song, Min Long, Haixin Zhao, Miao-Wen Zou, Hongjie Fan, Yang Liu, Chenlu Geng, Minfang Song, Yufeng Liu, Junyi Chen, Yu‐Lin Yang, Wenrong Zhou, Da-Wei Huang, Bo Peng, Zhengang Peng, Yong Cang

2021Nature Communications21 citationsDOIOpen Access PDF

Abstract

Cancer cells acquire genetic heterogeneity to escape from immune surveillance during tumor evolution, but a systematic approach to distinguish driver from passenger mutations is lacking. Here we investigate the impact of different immune pressure on tumor clonal dynamics and immune evasion mechanism, by combining massive parallel sequencing of immune edited tumors and CRISPR library screens in syngeneic mouse tumor model and co-culture system. We find that the core microRNA (miRNA) biogenesis and targeting machinery maintains the sensitivity of cancer cells to PD-1-independent T cell-mediated cytotoxicity. Genetic inactivation of the machinery or re-introduction of ANKRD52 frequent patient mutations dampens the JAK-STAT-interferon-γ signaling and antigen presentation in cancer cells, largely by abolishing miR-155-targeted silencing of suppressor of cytokine signaling 1 (SOCS1). Expression of each miRNA machinery component strongly correlates with intratumoral T cell infiltration in nearly all human cancer types. Our data indicate that the evolutionarily conserved miRNA pathway can be exploited by cancer cells to escape from T cell-mediated elimination and immunotherapy.

Topics & Concepts

BiologyImmune systemmicroRNASuppressor of cytokine signaling 1Gene silencingCancer researchImmunotherapySuppressorCancerImmunologyGeneGeneticsSingle-cell and spatial transcriptomicsCRISPR and Genetic EngineeringImmune cells in cancer
Tumor evolution selectively inactivates the core microRNA machinery for immune evasion | Litcius