Pulmonary Circulation (Apr 2022)

Critical role for the lung endothelial nonmuscle myosin light‐chain kinase isoform in the severity of inflammatory murine lung injury

  • Carrie L. Kempf,
  • Saad Sammani,
  • Tadeo Bermudez,
  • Jin H. Song,
  • Vivian Reyes Hernon,
  • Matthew K. Hufford,
  • Jessica Burt,
  • Sara M. Camp,
  • Steven M. Dudek,
  • Joe G. N. Garcia

DOI
https://doi.org/10.1002/pul2.12061
Journal volume & issue
Vol. 12, no. 2
pp. n/a – n/a

Abstract

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Abstract Global knockout of the nonmuscle isoform of myosin light‐chain kinase (nmMLCK), a primary cellular regulator of cytoskeletal machinery, is strongly protective in preclinical murine models of inflammatory lung injury. The current study was designed to assess the specific contribution of endothelial cell (EC) nmMLCK to the severity of murine inflammatory lung injury produced by lipopolysaccharide (LPS) and mechanical ventilation ventilator‐induced lung injury or ventilation (VILI). Responses to combined LPS/VILI exposure were assessed in: (i) wild‐type (WT) C57BL/6J mice; (ii) transgenic mice with global deletion of nmMLCK (nmMylk−/−); (iii) transgenic nmMylk−/− mice with overexpression of nmMLCK restricted to the endothelium (nmMylk−/−/ec‐tg+). Lung inflammation indices included lung histology, bronchoalveolar lavage (BAL) polymorphonuclear leukocytes (PMNs), lung protein biochemistry, tissue albumin levels, Evans blue dye (EBD) lung extravasation, and plasma cytokines (interleukin‐6 [IL‐6], keratinocyte chemoattractant [KC]/IL‐8, IL‐1bβ, extracellular nicotinamide phosphoribosyltransferase, tumor necrosis factor‐α). Compared to WT C57BL/6J mice, the severity of LPS/VILI‐induced lung injury was markedly reduced in mice with global nmMLCK deletion reflected by reductions in histologic inflammatory lung injury, BAL PMN counts, mitogen‐activated protein kinase, and NF‐kB pathway activation in lung homogenates, plasma cytokine levels, and parameters of lung permeability (increased BAL protein, tissue albumin levels, EBD lung extravasation). In contrast, mice with restricted overexpression of nmMLCK in EC (nmMylk−/−/ec‐tg+) showed significant persistence of LPS/VILI‐induced lung injury severity compared to WT mice. In conclusion, these studies strongly endorse the role of EC nmMLCK in driving the severity of preclinical inflammatory lung injury. Precise targeting of EC nmMLCK may represent an attractive therapeutic strategy to reduce lung inflammation and both lung and systemic vascular permeability.

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