TY - JOUR TI - B2M gene expression shapes the immune landscape of lung adenocarcinoma and determines the response to immunotherapy AU - Zhao, Yu AU - Cao, Yuejiao AU - Chen, Yiqi AU - Wu, Lei AU - Hang, Hua AU - Jiang, Chenxia AU - Zhou, Xiaorong T2 - Immunology AB - Loss of the B2M gene is associated with tumor immune escape and resistance to immunotherapy. However, genetic alterations of the B2M gene are rare. We performed an integrative analysis of the mutational and transcriptional profiles of large cohorts of non-small-cell lung cancer (NSCLC) patients and found that epigenetic downregulation of B2M is common. B2M-low tumors exhibit a suppressive immune microenvironment characterized by reduced infiltration of immune cells of various lineages; in B2M-high tumors, more T and natural killer (NK) cells are present, but their activities are constrained by immune checkpoint molecules, indicating the diverse mechanisms of immune evasion. High levels of B2M mRNA, but not PD-L1, are correlated with an enhanced response to PD-1-based immunotherapy, suggesting its value for immunotherapy response prediction in solid tumors. Notably, a high tumor mutation burden (TMB) is associated with low B2M expression, which may explain the poor predictive value of the TMB in some situations. In syngeneic mouse models, genetic ablation of B2M in tumor cells causes resistance to PD-1-based immunotherapy, and B2M knockdown also diminishes the therapeutic efficacy. Moreover, forced expression of B2M in tumor models improves the response to immunotherapy, suggesting that B2M levels have significant impacts on treatment outcomes. Finally, we provide insight into the roles of transcription factors and KRAS mutations in B2M expression and the anticancer immune response. In conclusion, genetic and epigenetic regulation of B2M fundamentally shapes the NSCLC immune microenvironment and may determine the response to checkpoint blockade-based immunotherapy. DO - 10.1111/imm.13384 DP - Wiley Online Library VL - n/a IS - n/a LA - en SN - 1365-2567 UR - https://onlinelibrary.wiley.com/doi/abs/10.1111/imm.13384 Y2 - 2021/06/11/23:19:09 KW - B2M KW - Lung cancer KW - immunotherapy KW - transcriptional regulation KW - tumor microenvironment ER -