CCR5 drives NK cell–associated airway damage in pulmonary ischemia-reperfusion injury
Jesse Santos, Ping Wang, Avishai Shemesh, Fengchun Liu, Tasha Tsao, Oscar A. Aguilar, Simon J. Cleary, Jonathan P. Singer, Ying Gao, Steven R. Hays, Jeffrey A. Golden, Lorriana Leard, Mary Ellen Kleinhenz, Nicholas A. Kolaitis, Rupal Shah, Aida Venado, Jasleen Kukreja, S. Sam Weigt, John A. Belperio, Lewis L. Lanier, Mark R. Looney, John R. Greenland, Daniel R. Calabrese
Jesse Santos, Ping Wang, Avishai Shemesh, Fengchun Liu, Tasha Tsao, Oscar A. Aguilar, Simon J. Cleary, Jonathan P. Singer, Ying Gao, Steven R. Hays, Jeffrey A. Golden, Lorriana Leard, Mary Ellen Kleinhenz, Nicholas A. Kolaitis, Rupal Shah, Aida Venado, Jasleen Kukreja, S. Sam Weigt, John A. Belperio, Lewis L. Lanier, Mark R. Looney, John R. Greenland, Daniel R. Calabrese
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Research Article Pulmonology Transplantation

CCR5 drives NK cell–associated airway damage in pulmonary ischemia-reperfusion injury

Abstract

Primary graft dysfunction (PGD) limits clinical benefit after lung transplantation, a life-prolonging therapy for patients with end-stage disease. PGD is the clinical syndrome resulting from pulmonary ischemia-reperfusion injury (IRI), driven by innate immune inflammation. We recently demonstrated a key role for NK cells in the airways of mouse models and human tissue samples of IRI. Here, we used 2 mouse models paired with human lung transplant samples to investigate the mechanisms whereby NK cells migrate to the airways to mediate lung injury. We demonstrate that chemokine receptor ligand transcripts and proteins are increased in mouse and human disease. CCR5 ligand transcripts were correlated with NK cell gene signatures independently of NK cell CCR5 ligand secretion. NK cells expressing CCR5 were increased in the lung and airways during IRI and had increased markers of tissue residency and maturation. Allosteric CCR5 drug blockade reduced the migration of NK cells to the site of injury. CCR5 blockade also blunted quantitative measures of experimental IRI. Additionally, in human lung transplant bronchoalveolar lavage samples, we found that CCR5 ligand was associated with increased patient morbidity and that the CCR5 receptor was increased in expression on human NK cells following PGD. These data support a potential mechanism for NK cell migration during lung injury and identify a plausible preventative treatment for PGD.

Authors

Jesse Santos, Ping Wang, Avishai Shemesh, Fengchun Liu, Tasha Tsao, Oscar A. Aguilar, Simon J. Cleary, Jonathan P. Singer, Ying Gao, Steven R. Hays, Jeffrey A. Golden, Lorriana Leard, Mary Ellen Kleinhenz, Nicholas A. Kolaitis, Rupal Shah, Aida Venado, Jasleen Kukreja, S. Sam Weigt, John A. Belperio, Lewis L. Lanier, Mark R. Looney, John R. Greenland, Daniel R. Calabrese

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Figure 5

CCR5 blockade reduces mouse NK cell airway inflammation.

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CCR5 blockade reduces mouse NK cell airway inflammation. (A) Schematic o...
(A) Schematic of maraviroc (allosteric CCR5 antagonist) administration 24 hours and 1 hour before left lung HC and reperfusion (n = 7) compared to vehicle control and HC (vehicle, n = 8) and sham procedures (n = 8). Samples were collected 4 hours after hilar suture removal (reperfusion). (B) Absolute number of NK cells within left lung BAL samples per mL. (C) NK cells as a percentage of total BAL lymphocytes. (D) Percentage of NK cells with CCR1 in the BAL. (E) Percentage of NK cells expressing CCR5 in the BAL. (F) Percentage of NK cells expressing CD49a in the BAL. (G) NK cells as a percentage of total lymphocytes in the lung. (H) Percentage of CCR5+ NK cells in the lung tissue. (I) Percentage of CD49a+ NK cells in the lung tissue. Summary data are displayed with box-and-whisker plots illustrating individual data points, bound by boxes at 25th and 75th percentiles, and with medians depicted with bisecting lines. Differences were assessed using the Kruskal-Wallis test. Post hoc testing between groups employed the Mann-Whitney U test with Benjamini-Hochberg corrections for multiple comparisons. P values are directly shown.