EBAG9 controls CD8+ T cell memory formation responding to tumor challenge in mice
Armin Rehm, … , Gerald Willimsky, Uta E. Höpken
Armin Rehm, … , Gerald Willimsky, Uta E. Höpken
Published April 28, 2022
Citation Information: JCI Insight. 2022;7(11):e155534. https://doi.org/10.1172/jci.insight.155534.
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Research Article Immunology Oncology

EBAG9 controls CD8+ T cell memory formation responding to tumor challenge in mice

Abstract

Insight into processes that determine CD8+ T cell memory formation has been obtained from infection models. These models are biased toward an inflammatory milieu and often use high-avidity CD8+ T cells in adoptive-transfer procedures. It is unclear whether these conditions mimic the differentiation processes of an endogenous repertoire that proceed upon noninflammatory conditions prevailing in premalignant tumor lesions. We examined the role of cytolytic capacity on CD8+ T cell fate decisions when primed by tumor cells or by minor histocompatibility antigen–mismatched leukocytes. CD8+ memory commitment was analyzed in Ebag9-deficient mice that exhibited enhanced tumor cell lysis. This property endowed Ebag9–/– mice with extended control of Tcl-1 oncogene–induced chronic lymphocytic leukemia progression. In Ebag9–/– mice, an expanded memory population was obtained for anti-HY and anti–SV-40 T antigen–specific T cells, despite unchanged effector frequencies in the primary response. By comparing the single-cell transcriptomes of CD8+ T cells responding to tumor cell vaccination, we found differential distribution of subpopulations between Ebag9+/+ and Ebag9–/– T cells. In Ebag9–/– cells, these larger clusters contained genes encoding transcription factors regulating memory cell differentiation and anti-apoptotic gene functions. Our findings link EBAG9-controlled cytolytic activity and the commitment to the CD8+ memory lineage.

Authors

Armin Rehm, Anthea Wirges, Dana Hoser, Cornelius Fischer, Stefanie Herda, Kerstin Gerlach, Sascha Sauer, Gerald Willimsky, Uta E. Höpken

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Figure 3

CD8+ T cell memory formation in Ebag9–/– mice during noninflammatory priming.

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CD8+ T cell memory formation in Ebag9–/– mice during noninflammatory pri...
(A) CD45.1+Thy1.2+ congenic recipient mice were lethally irradiated and transplanted with a 1:1 mixture of 2.5 × 106 CD45.2+CD90.1+ (WT, Ebag9+/+) and 2.5 × 106 CD45.2+CD90.1 (Ebag9–/–) BM cells. After 6 and 8 weeks, chimeric mice were immunized i.p. with male (HY+) splenocytes. At 44–48 days after the last immunization, splenic CD8+ T cells were MACS bead–enriched and analyzed without further re-stimulation. (B) Differentiation of congenic donor WT (+/+) and Ebag9–/– (–/–) CD8+ T cells by anti-CD90.1 staining; residual CD45.1+ host cells were excluded. Analysis of HY-specific CD8+ T cells using Pentamer/HY staining; n = 3 independent experiments; WT mice, n = 13; KO mice, n = 13. The graph depicts the frequencies in percentages of HY-reactive CD8+ T cells among the CD90.1 (Ebag9+/+) and CD90.1 (WT) CD8+ T cell population in single recipient mice (CD45.1+CD90.1). (C) Ebag9-deficient HY-reactive T cells predominate over the congenic WT response. The ratios (%) of Pentamer/HY-specific CD8+ T cells derived from either WT (CD19CD45.1CD8+ Pentamer/HY+ CD90.1+) or Ebag9–/– (CD19CD45.1CD8+ Pentamer/HY+ CD90.2+) progenies are given for each chimeric recipient mouse (n = 13 mice per genotype). SSC, side scatter. (B and C) A paired t test was applied. (D) A representative FACS dot plot for the detection of CD8+/Pentamer/HY+ T cells within the gated congenic CD90.1+ and CD90.1 splenic population is shown. Host cells were excluded by gating on CD45.1 transferred CD8+ T lymphocytes.