NKG2D blockade impairs tissue-resident memory T cell accumulation and reduces chronic lung allograft dysfunction
Kaveh Moghbeli, Madeline A. Lipp, Marta Bueno, Andrew Craig, Michelle Rojas, Minahal Abbas, Zachary I. Lakkis, Byron Chuan, John Sembrat, Kentaro Noda, Daniel J. Kass, Kong Chen, Li Fan, Tim Oury, Zihe Zhou, Xingan Wang, John F. McDyer, Oliver Eickelberg, Mark E. Snyder
Kaveh Moghbeli, Madeline A. Lipp, Marta Bueno, Andrew Craig, Michelle Rojas, Minahal Abbas, Zachary I. Lakkis, Byron Chuan, John Sembrat, Kentaro Noda, Daniel J. Kass, Kong Chen, Li Fan, Tim Oury, Zihe Zhou, Xingan Wang, John F. McDyer, Oliver Eickelberg, Mark E. Snyder
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Research Article Immunology Transplantation

NKG2D blockade impairs tissue-resident memory T cell accumulation and reduces chronic lung allograft dysfunction

Abstract

Chronic lung allograft dysfunction (CLAD) substantially limits long-term survival following lung transplantation. To identify potential targets for CLAD prevention, T cells from explanted CLAD lungs and lung-draining lymph nodes, as well as diseased and nondiseased controls were isolated and single-cell RNA sequencing and TCR sequencing were performed. TCR sequencing revealed a clonally expanded population of CD8+ tissue-resident memory T cells (TRMs) with high cytotoxic potential, including upregulation of KLRK1, encoding the co-receptor NKG2D. These cytotoxic CD8+ TRMs accumulated around the CLAD airways and had a 100-fold increase in clonal overlap with lung-draining lymph nodes when compared with non-CLAD lungs. Using a murine model of orthotopic lung transplantation, we confirmed that cytotoxic CD8+ TRM accumulation was due to chronic rejection and not transplantation alone. Furthermore, blocking NKG2D in vivo attenuated the airway remodeling following transplantation and diminished airway accumulation of CD8+ T cells. Our findings support NKG2D as a potential therapeutic target for CLAD, affecting cytotoxic CD8+ TRM accumulation.

Authors

Kaveh Moghbeli, Madeline A. Lipp, Marta Bueno, Andrew Craig, Michelle Rojas, Minahal Abbas, Zachary I. Lakkis, Byron Chuan, John Sembrat, Kentaro Noda, Daniel J. Kass, Kong Chen, Li Fan, Tim Oury, Zihe Zhou, Xingan Wang, John F. McDyer, Oliver Eickelberg, Mark E. Snyder

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Figure 6

A murine model of orthotopic lung transplantation recapitulates enhanced cytotoxicity observed in human CLAD.

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A murine model of orthotopic lung transplantation recapitulates enhanced...
(A) Schematic of murine orthotopic single-antigen mismatch lung transplant model. (B and C) Effect of lung transplantation on distribution of CD45+CD8+ T cells (B) and CD45+CD4+ T cells (C) in the lung. (D and E) The expression of CD49a on CD8+ T cells (D) and CD4+ T cells (E). (F and G) The expression of CD69 on CD8+ T cells (F) and CD4+ T cells (G) that were protected from intravenous CD45 labeling. (H and I) Memory T cell subsets were evaluated via expression of CD44 and CD62L on CD8+ (H) and CD4+ (I) T cells. (J) Perforin production from CD8+ T cells following transplantation. (K) Expression of NKG2D-encoding gene Klrk1 in CD8+ T cells. Scale bars: 1 mm (low magnification) and 50 μm (high magnification). (L) Immunofluorescent staining for CD8+ T cells adjacent to mouse lung airways from Allo vs. Syn (green = CD8A, purple = CC10). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 by Wilcoxon’s rank-sum test. Native, remaining native right lung.