Wei Han scite author profile

Rationale: Lung fibroblasts are key mediators of fibrosis resulting in accumulation of excessive interstitial collagen and extracellular matrix, but their origins are not well defined. Objectives: We aimed to elucidate the contribution of lung epithelium-derived fibroblasts via epithelial-mesenchymal transition (EMT) in the intratracheal bleomycin model. Methods: Primary type II alveolar epithelial cells were cultured from Immortomice and exposed to transforming growth factor-b 1 and epidermal growth factor. Cell fate reporter mice that permanently mark cells of lung epithelial lineage with b-galactosidase were developed to study EMT, and bone marrow chimeras expressing green fluorescent protein under the control of the fibroblast-associated S100A4 promoter were generated to examine bone marrow-derived fibroblasts. Mice were given intratracheal bleomycin (0.08 unit). Immunostaining was performed for S100A4, b-galactosidase, green fluorescent protein, and a-smooth muscle actin. Measurements and Main Results: In vitro, primary type II alveolar epithelial cells undergo phenotypic changes of EMT when exposed to transforming growth factor-b 1 and epidermal growth factor with loss of prosurfactant protein C and E-cadherin and gain of S100A4 and type I procollagen. In vivo, using cell fate reporter mice, approximately one-third of S100A4-positive fibroblasts were derived from lung epithelium 2 weeks after bleomycin administration. From bone marrow chimera studies, one-fifth of S100A4-positive fibroblasts were derived from bone marrow at this same time point. Myofibroblasts rarely derived from EMT or bone marrow progenitors. Conclusions: Both EMT and bone marrow progenitors contribute to S100A4-positive fibroblasts in bleomycin-induced lung fibrosis. However, neither origin is a principal contributor to lung myofibroblasts.

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Epithelial NF-κB activation promotes urethane-induced lung carcinogenesis

Stathopoulos

Sherrill

Cheng

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

183

217

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Duration and Intensity of NF-κB Activity Determine the Severity of Endotoxin-Induced Acute Lung Injury

Everhart¹,

et al. 2006

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Activation of innate immunity in the lungs can lead to a self-limited inflammatory response or progress to severe lung injury. We investigated whether specific parameters of NF-κB pathway activation determine the outcome of acute lung inflammation using a novel line of transgenic reporter mice. Following a single i.p. injection of Escherichia coli LPS, transient NF-κB activation was identified in a variety of lung cell types, and neutrophilic inflammation resolved without substantial tissue injury. However, administration of LPS over 24 h by osmotic pump (LPS pump) implanted into the peritoneum resulted in sustained, widespread NF-κB activation and neutrophilic inflammation that culminated in lung injury at 48 h. To determine whether intervention in the NF-κB pathway could prevent progression to lung injury in the LPS pump model, we administered a specific IκB kinase inhibitor (BMS-345541) to down-regulate NF-κB activation following the onset of inflammation. Treatment with BMS-345541 beginning at 20 h after osmotic pump implantation reduced lung NF-κB activation, concentration of KC and MIP-2 in lung lavage, neutrophil influx, and lung edema measured at 48 h. Therefore, sustained NF-κB activation correlates with severity of lung injury, and interdiction in the NF-κB pathway is beneficial even after the onset of lung inflammation.

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Characterization of Fibroblast-specific Protein 1 in Pulmonary Fibrosis

Lawson

Polosukhin

Zoia

et al. 2005

Am J Respir Crit Care Med

164

167

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Because fibroblasts produce collagen and other extracellular matrix components that are deposited during tissue fibrosis, defining the behavior of these cells is critical to understanding the pathogenesis of fibrotic diseases. We investigated the utility of fibroblast-specific protein 1 (FSP1), a member of the calmodulin S100 troponin C superfamily, for identifying lung fibroblasts in a murine model of pulmonary fibrosis induced by intratracheal administration of bleomycin. Protein and mRNA expression of FSP1 was minimal in untreated lungs, but increased by 1 week after bleomycin administration and remained increased at 2 and 3 weeks after treatment. By immunohistochemistry, the number of FSP1(+) cells increased in a dose-dependent manner in the lungs after bleomycin treatment. Colocalization of alpha1 procollagen and FSP1 in interstitial cells demonstrated that FSP1(+) fibroblasts contribute to the deposition of collagen after bleomycin administration. In primary lung cell cultures, lung fibroblasts, but not macrophages or type II alveolar epithelial cells, expressed FSP1. FSP1 also identified fibroblasts in lung biopsy specimens from patients with documented usual interstitial pneumonitis. Therefore, FSP1 is an improved marker for lung fibroblasts that could be useful for investigating the pathogenesis of pulmonary fibrosis.

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Airway Epithelium Controls Lung Inflammation and Injury through the NF-κB Pathway

et al. 2007

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Although airway epithelial cells provide important barrier and host defense functions, a crucial role for these cells in development of acute lung inflammation and injury has not been elucidated. We investigated whether NF-κB pathway signaling in airway epithelium could decisively impact inflammatory phenotypes in the lungs by using a tetracycline-inducible system to achieve selective NF-κB activation or inhibition in vivo. In transgenic mice that express a constitutively active form of IκB kinase 2 under control of the epithelial-specific CC10 promoter, treatment with doxycycline induced NF-κB activation with consequent production of a variety of proinflammatory cytokines, high-protein pulmonary edema, and neutrophilic lung inflammation. Continued treatment with doxycycline caused progressive lung injury and hypoxemia with a high mortality rate. In contrast, inducible expression of a dominant inhibitor of NF-κB in airway epithelium prevented lung inflammation and injury resulting from expression of constitutively active form of IκB kinase 2 or Escherichia coli LPS delivered directly to the airways or systemically via an osmotic pump implanted in the peritoneal cavity. Our findings indicate that the NF-κB pathway in airway epithelial cells is critical for generation of lung inflammation and injury in response to local and systemic stimuli; therefore, targeting inflammatory pathways in airway epithelium could prove to be an effective therapeutic strategy for inflammatory lung diseases.

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Wei Han

Contribution of Epithelial-derived Fibroblasts to Bleomycin-induced Lung Fibrosis

Epithelial NF-κB activation promotes urethane-induced lung carcinogenesis

Duration and Intensity of NF-κB Activity Determine the Severity of Endotoxin-Induced Acute Lung Injury

Characterization of Fibroblast-specific Protein 1 in Pulmonary Fibrosis

Airway Epithelium Controls Lung Inflammation and Injury through the NF-κB Pathway

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