PO.IM02.04 · 免疫学

IRF8 regulates T cell differentiation and anti-tumor effector function

海报缩略图:IRF8 regulates T cell differentiation and anti-tumor effector function
编号 4242 展板 10 时间 4/21 09:00–12:00 区域 Section 6 主讲 Zainab Tiamiyu, BS
分会场 Adaptive Immunity in Cancer
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作者与单位

Zainab Tiamiyu1, Dakota Poschel2, Aaron Behdadnia1, Kendra Fick1, Patrick Czabala3, Yang Zhao1, Dafeng Yang3, Sergie BOMBIN4, Kebin LIU3

1Biochemistry and Cancer Biology, Augusta University, Augusta, GA,2Medical College of Georgia, Augusta, GA,3Augusta University, Augusta, GA,4Georgia Cancer Center, Augusta, GA

摘要 Abstract

Interferon regulatory factor 8 (IRF8) is a myeloid cell lineage-specific transcription factor that also regulate B cell differentiation under physiological conditions. Under pathological conditions such as cancer, IRF8 acts as a negative regulator of myeloid-derived suppressor cells (MDSCs) to regulate anti-tumor immunity. However, the function of IRF8 in regulation of the adaptive immune response in the tumor microenvironment is incompletely understood. We therefore aimed at building a single cell atlas of IRF8-regulated immune cell differentiation in the tumor microenvironment using genome-wide single-cell multiomics. Unsupervised clustering in combination with maker-based annotation identified 12 major cell subpopulations in tumor-infiltrating leukocytes. IRF8 deficiency resulted in increased myeloid-derived suppressor cells (MDSCs) and memory T cells, but decreased plasmablasts, dendritic cells, and effecter T cells. Pathway enrichment analysis indicates that IRF8 primarily regulates multiple metabolic pathways in plasmablasts. In addition, IRF8 deficiency enhances TCR signaling, MTOC1 signaling, IFNgamma signaling, and T cell dysfunction in tumor-infiltrating effector T cells, but not in memory T cells. This hyperactivation is correlated with increased activation of apoptosis pathways in effector T cells. Our findings determine that IRF8 regulates the plasmablasts-effector T cell axis in the tumor microenvironment, and loss of IRF8 expression leads to decreased plasmablasts and hyper activation and dysfunction of effector T cells, resulting in effector T cell elimination and tumor immune escape.
利益披露 Disclosure
Z. Tiamiyu, None.. A. Behdadnia, None.. K. Fick, None.. Y. Zhao, None.. S. Bombin, None.

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