Deletion of AMPK minimizes graft-versus-host disease through an early impact on effector donor T cells
Darlene A. Monlish, Kevin J. Beezhold, Pailin Chiaranunt, Katelyn Paz, Nathan J. Moore, Andrea K. Dobbs, Rebecca A. Brown, John A. Ozolek, Bruce R. Blazar, Craig A. Byersdorfer
Darlene A. Monlish, Kevin J. Beezhold, Pailin Chiaranunt, Katelyn Paz, Nathan J. Moore, Andrea K. Dobbs, Rebecca A. Brown, John A. Ozolek, Bruce R. Blazar, Craig A. Byersdorfer
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Research Article Metabolism Transplantation

Deletion of AMPK minimizes graft-versus-host disease through an early impact on effector donor T cells

Abstract

Allogeneic hematopoietic stem cell transplantation is a viable treatment for multiple hematologic diseases, but its application is often limited by graft-versus-host disease (GVHD), where donor T cells attack host tissues in the skin, liver, and gastrointestinal tract. Here, we examined the role of the cellular energy sensor AMP kinase (AMPK) in alloreactive T cells during GVHD development. Early posttransplant, AMPK activity increased more than 15-fold in allogeneic T cells, and transplantation of T cells deficient in both AMPKα1 and AMPKα2 decreased GVHD severity in multiple disease models. Importantly, a lack of AMPK lessened GVHD without compromising antileukemia responses or impairing lymphopenia-driven immune reconstitution. Mechanistically, absence of AMPK decreased both CD4+ and CD8+ effector T cell numbers as early as day 3 posttransplant, while simultaneously increasing regulatory T cell (Treg) percentages. Improvements in GVHD resulted from cell-intrinsic perturbations in conventional effector T cells as depletion of donor Tregs had minimal impact on AMPK-related improvements. Together, these results highlight a specific role for AMPK in allogeneic effector T cells early posttransplant and suggest that AMPK inhibition may be an innovative approach to mitigate GVHD while preserving graft-versus-leukemia responses and maintaining robust immune reconstitution.

Authors

Darlene A. Monlish, Kevin J. Beezhold, Pailin Chiaranunt, Katelyn Paz, Nathan J. Moore, Andrea K. Dobbs, Rebecca A. Brown, John A. Ozolek, Bruce R. Blazar, Craig A. Byersdorfer

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Figure 3

AMPK-dKO T cells preserve cytotoxicity and antileukemia responses.

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AMPK-dKO T cells preserve cytotoxicity and antileukemia responses. (A) O...
(A) One million fl/fl or AMPK-dKO T cells were transplanted with 105 GFP+ p815 leukemia cells and 5 × 106 TCD BM cells into irradiated B6D2F1 recipients. On day 13, the percentage of GFP+ leukemia cells was quantitated in the peripheral blood (PBMCs), liver, BM, and spleens of recipient mice. Mice receiving TCD BM and leukemia cells only (no T cells) served as controls for unrestricted leukemia growth (n = 4 recipients/group, with each experiment repeated twice). (B) Irradiated B6D2F1 mice were transplanted as in A, and survival was measured 10 weeks posttransplant (n = 10–16/group). (C) In a third cohort, the percentage of GFP+ cells was quantitated in the peripheral blood, liver, and spleens of recipient animals on day 28, the median point of survival (n = 6 recipients/group). (D) To measure in vivo cytotoxicity, B6D2F1 recipients were transplanted with fl/fl or AMPK-dKO T cells, then injected on day 6, 13, or 20 with a 1:1 mix of B6 (syngeneic) and B6D2F1 (allogeneic) splenocytes. One day later, the percentage of allogeneic B6D2F1 cells remaining was quantitated in the spleen (n = 8–10 mice/group). Data for all studies represent 2 or more independent experiments. **P < 0.01, ****P < 0.0001 by Student’s t test or for survival curves by log-rank (Mantel-Cox) analysis.