The tumor-associated antigen EBAG9 negatively regulates the cytolytic capacity of mouse CD8+ T cells
Constantin Rüder, Uta E. Höpken, Jana Wolf, Hans-Willi Mittrücker, Boris Engels, Bettina Erdmann, Susanne Wollenzin, Wolfgang Uckert, Bernd Dörken, Armin Rehm
Constantin Rüder, Uta E. Höpken, Jana Wolf, Hans-Willi Mittrücker, Boris Engels, Bettina Erdmann, Susanne Wollenzin, Wolfgang Uckert, Bernd Dörken, Armin Rehm
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Research Article

The tumor-associated antigen EBAG9 negatively regulates the cytolytic capacity of mouse CD8+ T cells

Abstract

CTLs eliminate virus-infected and tumorigenic cells through exocytosis of cytotoxic agents from lytic granules. While insights into the intracellular mechanisms facilitating lytic granule release have been obtained through analysis of loss-of-function mutations in humans and mice, there is a paucity of information on negative regulators of secretory lysosome release at the molecular level. By generating and analyzing estrogen receptor–binding fragment-associated antigen 9–KO (Ebag9 KO) mice, we show here that loss of EBAG9 confers CTLs with enhanced cytolytic capacity in vitro and in vivo. Although loss of EBAG9 did not affect lymphocyte development, it led to an increase in CTL secretion of granzyme A, a marker of lytic granules. This resulted in increased cytotoxicity in vitro and an enhanced cytolytic primary and memory T cell response in vivo. We further found that EBAG9 interacts with the adaptor molecule γ2-adaptin, suggesting EBAG9 is involved in endosomal-lysosomal biogenesis and membrane fusion. Indeed, granzyme B was sorted to secretory lysosomes more efficiently in EBAG9-deficient CTLs than it was in WT CTLs, a finding consistent with the observed enhanced kinetics of cathepsin D proteolytic processing. While EBAG9 deficiency did not disrupt the formation of the immunological synapse, lytic granules in Ebag9–/– CTLs were smaller than in WT CTLs. These data suggest that EBAG9 is a tunable inhibitor of CTL-mediated adaptive immune response functions.

Authors

Constantin Rüder, Uta E. Höpken, Jana Wolf, Hans-Willi Mittrücker, Boris Engels, Bettina Erdmann, Susanne Wollenzin, Wolfgang Uckert, Bernd Dörken, Armin Rehm

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Figure 5

Similar efficiency of EBAG9-deficient and WT DCs for priming of OVA-specific T cells in vitro.

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Similar efficiency of EBAG9-deficient and WT DCs for priming of OVA-spec...
(A) DCs derived from Ebag9+/+ and Ebag9–/– mice (H-2b haplotype) were pulsed overnight with 100 μg/ml OVA protein. CFSE-labeled naive OT-I T cells (1 × 105) were stimulated with pulsed or unpulsed DCs (1 × 104) for 3 days. Cells were analyzed by flow cytometry, and T cells were gated for the expression of the clonotypic TCR or CD8a and CFSE. Shown is a representative FACS plot of gated CD8+ cells. Proliferation of T cells was evaluated according to CFSE dilution. Numbers indicate the percentage of proliferated CD8+ T cells within the gate. Representative data from 2 independent experiments with DCs from at least 6 animals per group. No significant differences were seen. (B) DCs (H-2d haplotype) were generated and pulsed with OVA protein (75 μg/ml) as described in A, followed by a 3-day coculture with CFSE-labeled OT-II CD4+ T cells. T cells were gated as described in A. Numbers indicate the percentage of proliferated CD3+ T cells within the gate. Shown are representative data from 3 independent experiments. DCs were taken from at least 6 animals per group. (C) DCs (H-2d haplotype) were pulsed for 2 hours with OVA-derived peptide (5 μg/ml), followed by a coculture with DO11.10 CD4+ T cells. T cells were gated as described in A. Shown are representative data from 4 independent experiments. DCs were taken from at least 9 animals per group. Percentages indicate the percentage of proliferated CD3+ T cells within the gate.