MEK1 regulates pulmonary macrophage inflammatory responses and resolution of acute lung injury
Matthew E. Long, Ke-Qin Gong, William E. Eddy, Joseph S. Volk, Eric D. Morrell, Carmen Mikacenic, T. Eoin West, Shawn J. Skerrett, Jean Charron, W. Conrad Liles, Anne M. Manicone
Matthew E. Long, Ke-Qin Gong, William E. Eddy, Joseph S. Volk, Eric D. Morrell, Carmen Mikacenic, T. Eoin West, Shawn J. Skerrett, Jean Charron, W. Conrad Liles, Anne M. Manicone
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Research Article Inflammation Pulmonology

MEK1 regulates pulmonary macrophage inflammatory responses and resolution of acute lung injury

Abstract

The MEK1/2–ERK1/2 pathway has been implicated in regulating the inflammatory response to lung injury and infection, and pharmacologic MEK1/2 inhibitor compounds are reported to reduce detrimental inflammation in multiple animal models of disease, in part through modulation of leukocyte responses. However, the specific contribution of myeloid MEK1 in regulating acute lung injury (ALI) and its resolution remain unknown. Here, the role of myeloid Mek1 was investigated in a murine model of LPS-induced ALI (LPS-ALI) by genetic deletion using the Cre-floxed system (LysMCre × Mekfl), and human alveolar macrophages from healthy volunteers and patients with acute respiratory distress syndrome (ARDS) were obtained to assess activation of the MEK1/2–ERK1/2 pathway. Myeloid Mek1 deletion results in a failure to resolve LPS-ALI, and alveolar macrophages lacking MEK1 had increased activation of MEK2 and the downstream target ERK1/2 on day 4 of LPS-ALI. The clinical significance of these findings is supported by increased activation of the MEK1/2–ERK1/2 pathway in alveolar macrophages from patients with ARDS compared with alveolar macrophages from healthy volunteers. This study reveals a critical role for myeloid MEK1 in promoting resolution of LPS-ALI and controlling the duration of macrophage proinflammatory responses.

Authors

Matthew E. Long, Ke-Qin Gong, William E. Eddy, Joseph S. Volk, Eric D. Morrell, Carmen Mikacenic, T. Eoin West, Shawn J. Skerrett, Jean Charron, W. Conrad Liles, Anne M. Manicone

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Figure 6

Alveolar macrophage MEK1/2–ERK1/2 pathway activation is increased in Mek1flLysMCre mice following LPS-ALI.

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Alveolar macrophage MEK1/2–ERK1/2 pathway activation is increased in Mek...
Mek1fl and Mek1flLysMCre were subjected to LPS-induced acute lung injury (LPS-ALI) and alveolar cells were collected by bronchoalveolar lavage (BAL) on day 4. BAL cells were and fixed and permeabilized and stained for analysis by flow cytometry. (A) Representative gating strategy to identify total and single cells, CD45-positive cells, and alveolar macrophages as Siglec-F and CD11c double-positive cells. (BH) The change in mean fluorescence intensity (ΔMFI) of alveolar macrophages for intracellular total proteins (B) MEK1, (C) MEK2, (D) MEK1/2, (E) ERK1/2, (F) (p-T292)MEK1, (G) (p-S221)MEK1/2, and (H) (p-T202/Y204)ERK1/2 was calculated by subtracting background signal using isotype-stained control samples. (IK) The ratio of the ΔMFI of phosphorylated to total protein was calculated for (I) (p-T292)MEK1 to MEK1, (J) (p-S221)MEK1/2 to MEK1/2, and (K) (p-T202/Y204)ERK1/2 to ERK1/2. Dots represent individual mice and the bars are the mean ± SEM. Statistical analyses were performed by unpaired t tests comparing the 2 genotypes. *P < 0.05, ****P < 0.0001; ns, not significant.