JCI Insight (Dec 2022)

Lectin-like oxidized low-density lipoprotein receptor 1 attenuates pneumonia-induced lung injury

  • Filiz T. Korkmaz,
  • Anukul T. Shenoy,
  • Elise M. Symer,
  • Lillia A. Baird,
  • Christine V. Odom,
  • Emad I. Arafa,
  • Ernest L. Dimbo,
  • Elim Na,
  • William Molina-Arocho,
  • Matthew Brudner,
  • Theodore J. Standiford,
  • Jawahar L. Mehta,
  • Tatsuya Sawamura,
  • Matthew R. Jones,
  • Joseph P. Mizgerd,
  • Katrina E. Traber,
  • Lee J. Quinton

Journal volume & issue
Vol. 7, no. 23

Abstract

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Identifying host factors that contribute to pneumonia incidence and severity are of utmost importance to guiding the development of more effective therapies. Lectin-like oxidized low-density lipoprotein receptor 1 (LOX-1, encoded by OLR1) is a scavenger receptor known to promote vascular injury and inflammation, but whether and how LOX-1 functions in the lung are unknown. Here, we provide evidence of substantial accumulation of LOX-1 in the lungs of patients with acute respiratory distress syndrome and in mice with pneumonia. Unlike previously described injurious contributions of LOX-1, we found that LOX-1 is uniquely protective in the pulmonary airspaces, limiting proteinaceous edema and inflammation. We also identified alveolar macrophages and recruited neutrophils as 2 prominent sites of LOX-1 expression in the lungs, whereby macrophages are capable of further induction during pneumonia and neutrophils exhibit a rapid, but heterogenous, elevation of LOX-1 in the infected lung. Blockade of LOX-1 led to dysregulated immune signaling in alveolar macrophages, marked by alterations in activation markers and a concomitant elevation of inflammatory gene networks. However, bone marrow chimeras also suggested a prominent role for neutrophils in LOX-1–mediated lung protection, further supported by LOX-1+ neutrophils exhibiting transcriptional changes consistent with reparative processes. Taken together, this work establishes LOX-1 as a tissue-protective factor in the lungs during pneumonia, possibly mediated by its influence on immune signaling in alveolar macrophages and LOX-1+ airspace neutrophils.

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