Time-course transcriptomic alterations reflect the pathophysiology of polyhexamethylene guanidine phosphate-induced lung injury in rats

Airway epithelial cell death contributes to the pathogenesis of lung fibrosis. Polyhexamethylene guanidine phosphate (PHMG-p), commonly used as a disinfectant, has been shown to be strongly associated with lung fibrosis in epidemiological and toxicological studies. However, the molecular mechanism underlying PHMG-p-induced epithelial cell death is currently unclear. We synthesized a PHMG-p–fluorescein isothiocyanate (FITC) conjugate and assessed its uptake into lung epithelial A549 cells. To examine intracellular localization, the cells were treated with PHMG-p–FITC; then, the cytoplasmic organelles were counterstained and observed with confocal microscopy. Additionally, the organelle-specific cell death pathway was investigated in cells treated with PHMG-p. PHMG-p–FITC co-localized with the endoplasmic reticulum (ER), and PHMG-p induced ER stress in A549 cells and mice. The ER stress inhibitor tauroursodeoxycholic acid (TUDCA) was used as a pre-treatment to verify the role of ER stress in PHMG-p-induced cytotoxicity. The cells treated with PHMG-p showed apoptosis, which was inhibited by TUDCA. Our results indicate that PHMG-p is rapidly located in the ER and causes ER-stress-mediated apoptosis, which is an initial step in PHMG-p-induced lung fibrosis.

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Polyhexamethylene guanidine phosphate, chloromethylisothiazolinone, and particulate matter are dispensable for stress granule formation in human airway epithelial cells

Animal Cells and Systems ◽

10.1080/19768354.2021.1931442 ◽

2021 ◽

pp. 1-6

Author(s):

Arnoldo Cambronero-Urena ◽

Sunkyung Choi ◽

Seri Choi ◽

Kee K. Kim ◽

Eun-Mi Kim

Keyword(s):

Particulate Matter ◽

Epithelial Cells ◽

Airway Epithelial Cells ◽

Stress Granule ◽

Airway Epithelial ◽

Granule Formation ◽

Human Airway ◽

Polyhexamethylene Guanidine ◽

Guanidine Phosphate ◽

Human Airway Epithelial Cells

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Respiratory Toxicity of Polyhexamethylene Guanidine Phosphate Exposure in Zebrafish

Zebrafish ◽

10.1089/zeb.2018.1571 ◽

2018 ◽

Vol 15 (5) ◽

pp. 460-472 ◽

Cited By ~ 6

Author(s):

Hanseul Oh ◽

C-Yoon Kim ◽

Bokyeong Ryu ◽

Ukjin Kim ◽

Jin Kim ◽

...

Keyword(s):

Polyhexamethylene Guanidine ◽

Guanidine Phosphate ◽

Respiratory Toxicity

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Infused salbutamol accentuates acid-induced lung injury in the rat

Clinical Science ◽

10.1042/cs0710205 ◽

1986 ◽

Vol 71 (2) ◽

pp. 205-209 ◽

Cited By ~ 5

Author(s):

Stanley Braude ◽

David Royston

Keyword(s):

Lung Injury ◽

Intravenous Infusion ◽

Time Course ◽

Weight Ratio ◽

Dry Weight ◽

Adrenergic Agonist ◽

Lung Water ◽

Significant Difference ◽

And Control ◽

Control Infusion

1. The effect in the rat of salbutamol infusion (1 μg min−1 kg−1) on acid-induced lung injury has been determined. Severity of lung injury was assessed by two techniques: the pulmonary clearance of 99mTc-diethylenetriaminepenta-acetate (99mTc-DTPA) and the lung wet/dry weight ratio, giving indices of alveolar epithelial permeability and transendothelial water filtration respectively. 2. Mean half-time of clearance of 99mTc-DTPA was increased significantly in rats who had intratracheal acid-induced injury and control (saline) intravenous infusion (19.4 ± 2.6 min) compared with non-acid-treated rats (98.1 ± 7.2) (P < 0.0001). However, those animals who had intratracheal acid injury and subsequent salbutamol intravenous infusion had significantly faster clearance (11.5 ± 1.9) than the acid and control infusion group (P < 0.05). 3. Gravimetric lung water in the acid-only rats (expressed as wet/dry weight ratio) was increased significantly (6.4 ± 0.3) compared with the non-acid-treated controls (5.4 ± 0.2) (P < 0.01). Acid-treated rats who had salbutamol infused had dramatically increased lung water (10.0 ± 0.6) (P < 0.001 vs acid and control infusion). 4. Intravenous salbutamol infusion itself produced no significant difference in the results for both techniques, compared with the non-acid-treated time-course controls. 5. Infused salbutamol accentuates acid-induced lung injury in the rat. Possible factors responsible for these findings include β2-adrenergic agonist mediated inhibition of hypoxic pulmonary vasoconstriction (HPV) and a predominant β1-adrenergic agonist inotropic effect of salbutamol with resultant rise in pulmonary artery pressure.

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Time-course transcriptomic alterations reflect the pathophysiology of polyhexamethyleneguanidine phosphate-induced lung injury in rat model

Toxicology Letters ◽

10.1016/j.toxlet.2017.08.045 ◽

2017 ◽

Vol 280 ◽

pp. S313-S314

Author(s):

Kyuhong Lee ◽

Mi-Kyung Song

Keyword(s):

Lung Injury ◽

Rat Model ◽

Time Course

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Keratinocyte growth factor therapy in murine oleic acid-induced acute lung injury

AJP Lung Cellular and Molecular Physiology ◽

10.1152/ajplung.00450.2004 ◽

2005 ◽

Vol 288 (6) ◽

pp. L1179-L1192 ◽

Cited By ~ 40

Author(s):

K. Ulrich ◽

M. Stern ◽

M. E. Goddard ◽

J. Williams ◽

J. Zhu ◽

...

Keyword(s):

Cell Proliferation ◽

Acute Lung Injury ◽

Gene Delivery ◽

Lung Injury ◽

Time Course ◽

Lung Compliance ◽

Alveolar Type ◽

Protein Therapy ◽

Cell Numbers ◽

Atii Cell

Alveolar type II (ATII) cell proliferation and differentiation are important mechanisms in repair following injury to the alveolar epithelium. KGF is a potent ATII cell mitogen, which has been demonstrated to be protective in a number of animal models of lung injury. We have assessed the effect of recombinant human KGF (rhKGF) and liposome-mediated KGF gene delivery in vivo and evaluated the potential of KGF as a therapy for acute lung injury in mice. rhKGF was administered intratracheally in male BALB/c mice to assess dose response and time course of proliferation. SP-B immunohistochemistry demonstrated significant increases in ATII cell numbers at all rhKGF doses compared with control animals and peaked 2 days following administration of 10 mg/kg rhKGF. Protein therapy in general is very expensive, and gene therapy has been suggested as a cheaper alternative for many protein replacement therapies. We evaluated the effect of topical and systemic liposome-mediated KGF-gene delivery on ATII cell proliferation. SP-B immunohistochemistry showed only modest increases in ATII cell numbers following gene delivery, and these approaches were therefore not believed to be capable of reaching therapeutic levels. The effect of rhKGF was evaluated in a murine model of OA-induced lung injury. This model was found to be associated with significant alveolar damage leading to severe impairment of gas exchange and lung compliance. Pretreatment with rhKGF 2 days before intravenous OA challenge resulted in significant improvements in Po2, Pco2, and lung compliance. This study suggests the feasibility of KGF as a therapy for acute lung injury.

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