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B cell-intrinsic IRF8 transcriptionally reprograms antigen presentation to sustain CD8⁺ T cell antitumor immunity

Created on 02 Jul 2026

Authors

Tiamiyu, Z., Poschel, D. B., Rashmi, R., Bombin, S., Fick, K., Czabala, P., Yang, D., Shi, H., Saeki, K., Ozato, K., Liu, K.

Abstract

Interferon regulatory factor 8 (IRF8) is a master transcription factor of myeloid differentiation, but whether IRF8 intrinsically controls B cell function in tumors remains unknown. Using paired single-cell transcriptomic and chromatin accessibility profiling of tumors from wild-type and Irf8-deficient mice, we identify a B cell-intrinsic IRF8 axis regulating antigen presentation and sustaining anti-tumor CD8 T cell immunity. IRF8 establishes conserved chromatin accessibility programs across myeloid cells and plasmablasts centered on antigen processing and MHC class I presentation, but engages distinct motifs by lineage: myeloid cells preferentially utilize ISRE and ETS-composite elements, whereas plasmablasts are selectively enriched for EICE elements, reflecting B lineage-specific IRF8-IRF4 cooperation. Loss of IRF8 disrupts these programs, skews B cells toward plasmablast differentiation and reduces antigen presentation machinery. B cell depletion accelerated tumor growth, while CD40 agonism activated B cells, expanded T cells, and enhanced anti-tumor immunity. B cell-specific IRF8 deletion alone accelerated tumor growth, establishing a cell-intrinsic requirement independent of myeloid IRF8 function. The IRF8-regulated B cell signature was enriched in PD-1 blockade cancer patient responders, and plasmablast abundance correlated with response in pembrolizumab-treated cancer patients. These findings establish IRF8 as a lineage-adapted regulator of antigen presentation and define the IRF8-B cell axis as a determinant of anti-tumor immunity.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 02 Jul 2026.

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