IL-1β–dependent extravasation of preexisting lung-restricted autoantibodies during lung transplantation activates complement and mediates primary graft dysfunction
Wenbin Yang, … , Emilia Lecuona, Ankit Bharat
Wenbin Yang, … , Emilia Lecuona, Ankit Bharat
Published October 17, 2022
Citation Information: J Clin Invest. 2022;132(20):e157975. https://doi.org/10.1172/JCI157975.
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Research Article Transplantation

IL-1β–dependent extravasation of preexisting lung-restricted autoantibodies during lung transplantation activates complement and mediates primary graft dysfunction

Abstract

Preexisting lung-restricted autoantibodies (LRAs) are associated with a higher incidence of primary graft dysfunction (PGD), although it remains unclear whether LRAs can drive its pathogenesis. In syngeneic murine left lung transplant recipients, preexisting LRAs worsened graft dysfunction, which was evident by impaired gas exchange, increased pulmonary edema, and activation of damage-associated pathways in lung epithelial cells. LRA-mediated injury was distinct from ischemia-reperfusion injury since deletion of donor nonclassical monocytes and host neutrophils could not prevent graft dysfunction in LRA-pretreated recipients. Whole LRA IgG molecules were necessary for lung injury, which was mediated by the classical and alternative complement pathways and reversed by complement inhibition. However, deletion of Fc receptors in donor macrophages or mannose-binding lectin in recipient mice failed to rescue lung function. LRA-mediated injury was localized to the transplanted lung and dependent on IL-1β–mediated permeabilization of pulmonary vascular endothelium, which allowed extravasation of antibodies. Genetic deletion or pharmacological inhibition of IL-1R in the donor lungs prevented LRA-induced graft injury. In humans, preexisting LRAs were an independent risk factor for severe PGD and could be treated with plasmapheresis and complement blockade. We conclude that preexisting LRAs can compound ischemia-reperfusion injury to worsen PGD for which complement inhibition may be effective.

Authors

Wenbin Yang, Emily Jeong Cerier, Félix L. Núñez-Santana, Qiang Wu, Yuanqing Yan, Chitaru Kurihara, Xianpeng Liu, Anjana Yeldandi, Nigar Khurram, Diego Avella-Patino, Haiying Sun, G.R. Scott Budinger, Daniel Kreisel, Thalachallour Mohanakumar, Emilia Lecuona, Ankit Bharat

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Figure 1

Preexisting whole lung-restricted antibodies (LRAs) against self-antigens induce primary graft dysfunction after syngeneic murine lung transplantation.

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Preexisting whole lung-restricted antibodies (LRAs) against self-antigen...
Recipient mice received 150 μg each (i.v.) of isotype control, LRAs (anti–collagen type V plus anti–K-α1 tubulin), or LRA F(ab′)2 portion, 24 hours before and 1 hour after lung transplantation. (A) Twenty-four hours after transplantation, arterial blood oxygenation was analyzed after clamping the right hilum (n = 3–4). Lungs were also harvested for assessment of (B) pulmonary edema (n = 3–5) and (C) neutrophils (live CD45+SiglecFCD11b+Ly6G+) (n = 3). (D) Histology showing capillaritis and alveolar edema in mice treated with LRAs but not isotype control antibodies. Scale bar: 20 μm. (E) Inflammatory cells (both polymorpho- and mononuclear) were counted in 10 high-power fields (×40) and averaged for each group. (F) Pictures from 2-photon microscopy showing LRA (magenta) deposition. Scale bar: 50 μm. Data are presented as mean ± SD. PaO2/FiO2, arterial oxygen pressure. Graphs in AC were analyzed by 1-way ANOVA followed by Tukey’s post hoc test. Graph in E was analyzed by unpaired, 2-tailed Student’s t test. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.