Abstract

Despite the widespread use of antibiotics, bacterial pneumonias in donors strongly predispose to the fatal syndrome of primary graft dysfunction (PGD) following lung transplantation. We report that bacterial endotoxin persists in human donor lungs after pathogen is cleared with antibiotics and is associated with neutrophil infiltration and PGD. In mouse models, depletion of tissue-resident alveolar macrophages (TRAM) attenuated neutrophil recruitment in response to endotoxin as shown by compartmental staining and intravital imaging. Bone marrow chimeric mice revealed that neutrophils were recruited by TRAM through activation of TLR4 in a MyD88-dependent manner. Intriguingly, low levels of endotoxin, insufficient to cause donor lung injury, promoted TRAM-dependent production of CXCL2, increased neutrophil recruitment, and led to PGD, which was independent of donor non-classical monocytes. Reactive oxygen species (ROS) increased in human donor lungs starting from the warm-ischemia phase and were associated with increased transcription and translocation to the plasma membrane of TLR4 in donor TRAM. Consistently, scavenging ROS or inhibiting their production to prevent TLR4 transcription/translocation or blockade of TLR4 or co-receptor CD14 on donor TRAM prevented neutrophil recruitment in response to endotoxin and ameliorated PGD. Our studies demonstrate that residual endotoxin after successful treatment of donor bacterial pneumonia promotes PGD through ischemia-reperfusion-primed donor TRAM..

Authors

Mahzad Akbarpour, Emilia Lecuona, Stephen Chiu, Qiang Wu, Melissa Querrey, Ramiro Fernandez, Felix Luis Nunez-Santana, Haiying Sun, Sowmya Ravi, Chitaru Kurihara, James M. Walter, Nikita Joshi, Ziyou Ren, Scott C. Roberts, Alan R. Hauser, Daniel Kreisel, Wenjun Li, Navdeep Chandel, Alexander V. Misharin, Thalachallour Mohanakumar, G.R. Scott Budinger, Ankit Bharat

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