Pulmonary responses to smoke inhalation: Morphologic changes in rabbits exposed to pine wood smoke

Abstract Mucus hypersecretion is a pathological feature of acute inflammatory and chronic obstructive pulmonary diseases. Exposure to air pollutants can be a cause of pathological mucus overproduction, but mechanisms by which different forms of air pollutants elicit this response are not fully understood. In this study, particulate matter (PM) generated from burning pine wood and other types of biomass was used to determine mechanisms by which these forms of PM stimulate mucin gene expression and secretion by primary human bronchial epithelial cells (HBECs). Biomass PM < 2.5 μm generated from pine wood and several other fuels stimulated the expression and secretion of the gel-forming glycoprotein MUC5AC by HBECs. Muc5ac gene induction was also observed in mouse airways following subacute oropharyngeal delivery of pine wood smoke PM. In HBECs, MUC5AC was also induced by the transient receptor potential ankyrin-1 (TRPA1) agonists’ coniferaldehyde, a component of pine smoke PM, and allyl isothiocyanate, and was attenuated by a TRPA1 antagonist. Additionally, inhibition of epidermal growth factor receptor (EGFR/ErbB1) and the EGFR signaling partners p38 MAPK and GSK3β also prevented MUC5AC overexpression. Collectively, our results suggest that activation of TRPA1 and EGFR, paired with alterations to p38 MAPK and GSK3β activity, plays a major role in MUC5AC overproduction by bronchial epithelial cells exposed to biomass smoke PM. These results reveal specific processes for how biomass smoke PM may impact the human respiratory system and highlight potential avenues for therapeutic manipulation of lung diseases that are affected by air pollutants.

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Reflex changes in breathing pattern evoked by inhalation of wood smoke in rats

Journal of Applied Physiology ◽

10.1152/jappl.1994.76.6.2333 ◽

1994 ◽

Vol 76 (6) ◽

pp. 2333-2341 ◽

Cited By ~ 27

Author(s):

Y. R. Kou ◽

C. J. Lai

Keyword(s):

Tidal Volume ◽

Breathing Pattern ◽

Ventilatory Response ◽

Smoke Inhalation ◽

Wood Smoke ◽

Sprague Dawley ◽

Peripheral Chemoreceptors ◽

Sprague Dawley Rats ◽

Cervical Vagotomy ◽

Stimulation Of

The acute ventilatory response to inhalation of wood smoke was studied in 58 anesthetized Sprague-Dawley rats. Wood smoke (approximately 6 ml) was inhaled spontaneously via a tracheal cannula. Within the first two breaths of smoke inhalation, either a slowing of respiration (SR) (n = 39) or an augmented inspiration (AI) (n = 19) was elicited consistently in each rat. The SR was primarily due to a prolongation of expiratory duration, whereas the AI was characterized by a two-step inspiratory flow leading to an exceedingly large tidal volume. Both initial responses, usually accompanied by bradycardia and hypotension, were reduced by inhaling smoke at a decreased concentration. After these initial responses, a delayed tachypnea developed and reached its peak 6–10 breaths after inhalation of smoke. Both the SR and AI were completely abolished by bilateral cervical vagotomy. In contrast, the delayed tachypneic response was not prevented by vagotomy but was significantly attenuated by denervation of peripheral chemoreceptors. We conclude that the initial responses to inhalation of several tidal breaths of wood smoke are mediated through vagal bronchopulmonary afferents, whereas the delayed tachypnea may involve nonvagal mechanisms that include a stimulation of peripheral chemoreceptors.

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Segmental pulmonary vascular resistance following wood smoke inhalation

Critical Care Medicine ◽

10.1097/00003246-199507000-00017 ◽

1995 ◽

Vol 23 (7) ◽

pp. 1264-1271 ◽

Cited By ~ 9

Author(s):

Gary F. Nieman ◽

Jr Clark ◽

Andrew Paskanik ◽

David Feldbaum

Keyword(s):

Pulmonary Vascular Resistance ◽

Vascular Resistance ◽

Smoke Inhalation ◽

Wood Smoke

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A murine model of smoke inhalation

AJP Lung Cellular and Molecular Physiology ◽

10.1152/ajplung.2001.280.4.l716 ◽

2001 ◽

Vol 280 (4) ◽

pp. L716-L723 ◽

Cited By ~ 28

Author(s):

E. Matthew ◽

G. Warden ◽

J. Dedman

Keyword(s):

Murine Model ◽

Lavage Fluid ◽

The United States ◽

Tissue Response ◽

Smoke Inhalation ◽

Wood Smoke ◽

Cell Counts ◽

Type Ii Cell ◽

Smoke Chamber ◽

Structural Fires

The United States has one of the world's largest per capita fire death rates. House fires alone kill >9,000 Americans annually, and smoke inhalation is the leading cause of mortality from structural fires. Animal models are needed to develop therapies to combat this problem. We have developed a murine model of smoke inhalation through the design, construction, and use of a controlled-environment smoke chamber. There is a direct relationship between the quantity of wood combusted and mortality in mice. As with human victims, the primary cause of death from smoke inhalation is an elevated blood carboxyhemoglobin level. Lethal (78%) and sublethal (50%) carboxyhemoglobin levels were obtained in mice subjected to varying amounts of smoke. Mice exposed to wood smoke demonstrated more dramatic pathology than mice exposed to cotton or polyurethane smoke. A CD-1 model of wood smoke exposure was developed, demonstrating type II cell hypertrophy, cytoplasmic blebbing, cytoplasmic vacuolization, sloughing, hemorrhage, edema, macrophage infiltration, and lymphocyte infiltration. The bronchoalveolar lavage fluid of smoke-exposed mice demonstrated a significant increase in total cell counts compared with those in control mice. These findings are comparable to the lung tissue response observed in human victims of smoke inhalation.

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Morphologic alterations in bacteroides fragilis following single and combinant beta-lactam exposure

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100143146 ◽

1986 ◽

Vol 44 ◽

pp. 304-305

Author(s):

Michael P. Goheen ◽

Charles E. Edmiston

Keyword(s):

Bacteroides Fragilis ◽

Synergistic Activity ◽

Beta Lactam ◽

Clinical Strains ◽

Drug Activity ◽

Obligate Anaerobic ◽

Morphologic Changes

The synergistic activity of antimicrobial combinants against aerobic and facultative microorganisms has been well documented. in comparison, few studies have been performed using obligate anaerobic isolates and antimicrobial combinants. For this study clinical strains of Bacteroides fragilis(BF) were selected to investigate both single/combinant drug activity and cellular morphologic changes when BF is exposed to Imipenem (I), Piperacillin (P), Cefpimizole (C), Imipenem/Piperacillin (I+P), and Imipenem/Cefpimizole (I+C).

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