In vivo kinetics and nonradioactive imaging of rapidly proliferating cells in graft-versus-host disease
Nataliya P. Buxbaum, Donald E. Farthing, Natella Maglakelidze, Martin Lizak, Hellmut Merkle, Andrea C. Carpenter, Brittany U. Oliver, Veena Kapoor, Ehydel Castro, Gregory A. Swan, Liliane M. dos Santos, Nicolas J. Bouladoux, Catherine V. Bare, Francis A. Flomerfelt, Michael A. Eckhaus, William G. Telford, Yasmine Belkaid, Remy J. Bosselut, Ronald E. Gress
Nataliya P. Buxbaum, Donald E. Farthing, Natella Maglakelidze, Martin Lizak, Hellmut Merkle, Andrea C. Carpenter, Brittany U. Oliver, Veena Kapoor, Ehydel Castro, Gregory A. Swan, Liliane M. dos Santos, Nicolas J. Bouladoux, Catherine V. Bare, Francis A. Flomerfelt, Michael A. Eckhaus, William G. Telford, Yasmine Belkaid, Remy J. Bosselut, Ronald E. Gress
View: Text | PDF
Resource and Technical Advance Immunology Transplantation

In vivo kinetics and nonradioactive imaging of rapidly proliferating cells in graft-versus-host disease

Abstract

Hematopoietic stem cell transplantation (HSCT) offers a cure for cancers that are refractory to chemotherapy and radiation. Most HSCT recipients develop chronic graft-versus-host disease (cGVHD), a systemic alloimmune attack on host organs. Diagnosis is based on clinical signs and symptoms, as biopsies are risky. T cells are central to the biology of cGVHD. We found that a low Treg/CD4+ T effector memory (Tem) ratio in circulation, lymphoid, and target organs identified early and established mouse cGVHD. Using deuterated water labeling to measure multicompartment in vivo kinetics of these subsets, we show robust Tem and Treg proliferation in lymphoid and target organs, while Tregs undergo apoptosis in target organs. Since deuterium enrichment into DNA serves as a proxy for cell proliferation, we developed a whole-body clinically relevant deuterium MRI approach to nonradioactively detect cGVHD and potentially allow imaging of other diseases characterized by rapidly proliferating cells.

Authors

Nataliya P. Buxbaum, Donald E. Farthing, Natella Maglakelidze, Martin Lizak, Hellmut Merkle, Andrea C. Carpenter, Brittany U. Oliver, Veena Kapoor, Ehydel Castro, Gregory A. Swan, Liliane M. dos Santos, Nicolas J. Bouladoux, Catherine V. Bare, Francis A. Flomerfelt, Michael A. Eckhaus, William G. Telford, Yasmine Belkaid, Remy J. Bosselut, Ronald E. Gress

×

Figure 5

CD4+ Tem in vivo cell kinetics show robust cell gain in the spleen and liver in allogeneic (allo) hematopoietic stem cell transplant recipients (HSCT), with rapid concurrent label loss kinetics in the spleen and increased number in circulation.

Options: View larger image (or click on image) Download as PowerPoint
CD4+ Tem in vivo cell kinetics show robust cell gain in the spleen and l...
(A) Percentage of new Tem cells in the spleen for each experimental cohort measured at day +14 and +28, following 7 days of labeling for each time point. Data for 5 independent experiments were pooled for the day +7 to +14 analysis (each independent experiment represents a pooled sample from n = 2–7 mice), and 3 independent experiments for day +21 to +28 analysis. (B) Percentage of new Tem cells in the liver for each experimental cohort measured at day +14 and +28, following 7 days of labeling for each time point. Data for 3 independent experiments were pooled for the day +7 to +14 analysis (each independent experiment represents a pooled sample from n = 5–8 mice), and 2 independent experiments for day +21 to +28 analysis. (C) Label loss kinetics for Tem cells from spleens of allogeneic versus syngeneic recipients. Data are representative of 2 independent experiments (each independent experiment represents a pooled sample from n = 2–7 mice). Data are representative of 4 independent experiments (n = 2–6 mice per experiment per cohort). For panels A and B, *P < 0.05, **P < 0.01; Tukey’s test with 2-way ANOVA.