Jerry F. Green scite author profile

To test the hypothesis that lung sensory C fibers protect the small distal airways and alveoli from oxidant injury, we compared the effects of inhalation of ozone (1 ppm) or filtered air for 8 h on lung injury and lung inflammation in four groups of rats: (1) normal rats exposed to filtered air; (2) normal rats exposed to ozone; (3) rats treated as neonates with capsaicin (50 mg/kg, intraperitoneally) and subsequently exposed to filtered air; and (4) rats treated as neonates with capsaicin and subsequently exposed to ozone. All rats were allowed to recover in filtered air for 0, 4, 16, and 40 h before necropsy. Rats exposed to filtered air (Groups 1 and 3) showed normal airway and parenchyma structure. Normal untreated rats exposed to ozone showed a random distribution of mild, interstitial inflammatory changes and epithelial necrosis of bronchi and bronchiolar epithelium. However, rats treated with capsaicin and subsequently exposed to ozone demonstrated severe acute interstitial inflammation and epithelial coagulate necrosis in all airways, especially in small, peripheral airways and parenchyma; all of these changes were statistically significant. These findings support our hypothesis that lung sensory C fibers protect the distal airways from oxidant injury during acute ozone inhalation.

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Capsaicin-sensitive C-fiber-mediated protective responses in ozone inhalation in rats

Vesely

Hyde

Stovall

et al. 1999

Journal of Applied Physiology

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To assess the role of lung sensory C fibers during and after inhalation of 1 part/million ozone for 8 h, we compared breathing pattern responses and epithelial injury-inflammation-repair in rats depleted of C fibers by systemic administration of capsaicin as neonates and in vehicle-treated control animals. Capsaicin-treated rats did not develop ozone-induced rapid, shallow breathing. Capsaicin-treated rats showed more severe necrosis in the nasal cavity and greater inflammation throughout the respiratory tract than did control rats exposed to ozone. Incorporation of 5-bromo-2'-deoxyuridine (a marker of DNA synthesis associated with proliferation) into terminal bronchiolar epithelial cells was not significantly affected by capsaicin treatment in rats exposed to ozone. However, when normalized to the degree of epithelial necrosis present in each rat studied, there was less 5-bromo-2'-deoxyuridine labeling in the terminal bronchioles of capsaicin-treated rats. These observations suggest that the ozone-induced release of neuropeptides does not measurably contribute to airway inflammation but may play a role in modulating basal and reparative airway epithelial cell proliferation.

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Studies of Reactivity and Distribution of Bronchial Blood Flow in Sheep

Parsons

Kramer

Link

et al. 1985

Chest

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Jerry F. Green

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Neonatal capsaicin treatment increases the severity of ozone-induced lung injury.

Capsaicin-sensitive C-fiber-mediated protective responses in ozone inhalation in rats

Studies of Reactivity and Distribution of Bronchial Blood Flow in Sheep

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