Neutrophil-specific Shp1 loss results in lethal pulmonary hemorrhage in mouse models of acute lung injury
S. Farshid Moussavi-Harami, … , Clifford A. Lowell, Mark R. Looney
S. Farshid Moussavi-Harami, … , Clifford A. Lowell, Mark R. Looney
Published October 1, 2024
Citation Information: J Clin Invest. 2024;134(24):e183161. https://doi.org/10.1172/JCI183161.
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Research Article Immunology Pulmonology

Neutrophil-specific Shp1 loss results in lethal pulmonary hemorrhage in mouse models of acute lung injury

Abstract

Acute respiratory distress syndrome (ARDS) is associated with significant morbidity and mortality, and neutrophils are critical to its pathogenesis. Neutrophil activation is closely regulated by inhibitory tyrosine phosphatases including Src homology region 2 domain–containing phosphatase-1 (Shp1). Here, we report that loss of neutrophil Shp1 in mice produced hyperinflammation and lethal pulmonary hemorrhage in sterile inflammation and pathogen-induced models of acute lung injury (ALI) through a Syk kinase–dependent mechanism. We observed large intravascular neutrophil clusters, perivascular inflammation, and excessive neutrophil extracellular traps in neutrophil-specific Shp1-KO mice, suggesting an underlying mechanism for the observed pulmonary hemorrhage. Targeted immunomodulation through the administration of a Shp1 activator (SC43) reduced agonist-induced reactive oxygen species in vitro and ameliorated ALI-induced alveolar neutrophilia and NETs in vivo. We propose that the pharmacologic activation of Shp1 has the potential to fine tune neutrophil hyperinflammation that is central to the pathogenesis of ARDS.

Authors

S. Farshid Moussavi-Harami, Simon J Cleary, Mélia Magnen, Yurim Seo, Catharina Conrad, Bevin C. English, Longhui Qiu, Kristin M. Wang, Clare L. Abram, Clifford A. Lowell, Mark R. Looney

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Figure 1

Shp1 deletion in neutrophils leads to severe pulmonary hemorrhage and increased inflammation after LPS-induced lung injury.

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Shp1 deletion in neutrophils leads to severe pulmonary hemorrhage and in...
(AD) Gross lung and bronchoalveolar lavage (BAL) findings after intratracheal LPS in (A and B) Ptpn6fl/fl and (C and D) Ptpn6fl/fl S100A8(Cre+) mice. Quantitative analysis of BAL indicates (E) alveolar hemorrhage, (F) alveolar neutrophilia, (G) increased vascular permeability, and (H) increased BAL NETs in Ptpn6fl/fl S100A8(Cre+) mice compared to Ptpn6fl/fl. (I) Decreased survival in Ptpn6fl/fl S100A8(Cre+) mice after LPS. (J and K) H&E staining of lung from (J) Ptpn6fl/fl and (K) Ptpn6fl/fl S100A8(Cre+) mice showing increased inflammation and alveolar hemorrhage after LPS with the loss of Shp1 in neutrophils. (L and M) Intravital image after LPS challenge with Evans Blue (plasma stain) and Sytox Green (NET stain) in (L) Ptpn6fl/fl and (M) Ptpn6fl/fl S100A8(Cre+) indicating exacerbated vascular leak and NETs in Ptpn6fl/fl S100A8(Cre+) mice. Scale bars: (A and B) 50 mm; (J and K) 500 μm; (L and M) 50 μm. P values are from unpaired 2-tailed t tests on log10-transformed data (EH) and log-rank test (I). **P < 0.01, ****P < 0.0001.