Nonhematopoietic antigen blocks memory programming of alloreactive CD8+ T cells and drives their eventual exhaustion in mouse models of bone marrow transplantation
Barry Flutter, … , Megan Sykes, Ronjon Chakraverty
Barry Flutter, … , Megan Sykes, Ronjon Chakraverty
Published October 18, 2010
Citation Information: J Clin Invest. 2010;120(11):3855-3868. https://doi.org/10.1172/JCI41446.
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Research Article Hematology

Nonhematopoietic antigen blocks memory programming of alloreactive CD8+ T cells and drives their eventual exhaustion in mouse models of bone marrow transplantation

Abstract

Allogeneic blood or BM transplantation (BMT) is the most commonly applied form of adoptive cellular therapy for cancer. In this context, the ability of donor T cells to respond to recipient antigens is coopted to generate graft-versus-tumor (GVT) responses. The major reason for treatment failure is tumor recurrence, which is linked to the eventual loss of functional, host-specific CTLs. In this study, we have explored the role of recipient antigen expression by nonhematopoietic cells in the failure to sustain effective CTL immunity. Using clinically relevant models, we found that nonhematopoietic antigen severely disrupts the formation of donor CD8+ T cell memory at 2 distinct levels that operate in the early and late phases of the response. First, initial and direct encounters between donor CD8+ T cells and nonhematopoietic cells blocked the programming of memory precursors essential for establishing recall immunity. Second, surviving CD8+ T cells became functionally exhausted with heightened expression of the coinhibitory receptor programmed death-1 (PD-1). These 2 factors acted together to induce even more profound failure in long-term immunosurveillance. Crucially, the functions of exhausted CD8+ T cells could be partially restored by late in vivo blockade of the interaction between PD-1 and its ligand, PD-L1, without induction of graft-versus-host disease, suggestive of a potential clinical strategy to prevent or treat relapse following allogeneic BMT.

Authors

Barry Flutter, Noha Edwards, Farnaz Fallah-Arani, Stephen Henderson, Jian-Guo Chai, Shivajanani Sivakumaran, Sara Ghorashian, Clare L. Bennett, Gordon J. Freeman, Megan Sykes, Ronjon Chakraverty

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Figure 8

Nonhematopoietic antigen regulates early memory fate determination.

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Nonhematopoietic antigen regulates early memory fate determination. (A) ...
(A) CD45.1+ or CD45.1/2+ B6 SCs (3 × 107) were transferred to nhTA+ and nhTA chimeras, respectively. 14 days later, CD45.1+ CD8+ T cells from nhTA+ and nhTA chimeras were sorted, mixed at a 1:1 ratio, and transferred to established secondary B6→B6 hosts. After 14 days, secondary hosts were immunized i.p. with 1 × 106 BDF1 LPS-matured DCs, and recall immunity was measured 7 days later. (B) Relative frequency of the 2 transferred CD8+ T cell populations in the blood of secondary hosts at timed intervals following secondary transfer (ratio of CD45.1+CD45.2+ to CD45.1+CD45.2 CD8+ cells). (C) Relative frequency of above populations in the spleen, LN, and BM of secondary hosts at 21 days. (D) Representative plots show IFN-γ production by CD45.1+ CD8+ T cells that were CD45.2 (nhTA+) or CD45.2+ (nhTA). (E) Summary data showing the relative function in terms of the frequency (freq) and absolute number (abs) of CD8+ T cells producing IFN-γ. (B, C, and E) *P < 0.05, Wilcoxon signed rank test relative to expected ratio of 1 (dotted line). (F) Representative dot plots show the cell surface expression of CD44, CD62L, and IL-7Rα on CD8+ CD45.1+ cells 21 days following secondary transfer. Numbers indicate the percentage of gated cells in each quadrant. Scatter plots show the percentage of each transferred cell population expressing cell surface markers. **P < 0.01, Mann-Whitney test.