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. 2005 Feb 8;102(6):2186-91.
doi: 10.1073/pnas.0409591102. Epub 2005 Jan 31.

Attenuation of tobacco smoke-induced lung inflammation by treatment with a soluble epoxide hydrolase inhibitor

Kevin R Smith  1 Kent E PinkertonTakaho WatanabeTheresa L PedersenSeung Jin MaBruce D Hammock
Affiliations

Attenuation of tobacco smoke-induced lung inflammation by treatment with a soluble epoxide hydrolase inhibitor

Kevin R Smith (VSports注册入口) et al. Proc Natl Acad Sci U S A. .

Abstract

Changes in the lungs due to smoking include inflammation, epithelial damage, and remodeling of the airways VSports手机版. Airway inflammation is likely to play a critical role in the genesis and progression of tobacco smoke-induced airway disease. Soluble epoxide hydrolase (sEH) is involved in the metabolism of endogenous chemical mediators that play an important role in inflammation. Epoxyeicosatrienoic acids (EETs) have demonstrated antiinflammatory properties, and hydrolysis of these epoxides by sEH is known to diminish this activity. To examine whether acute tobacco smoke-induced inflammation could be reduced by a sEH inhibitor, 12-(3-adamantane-1-yl-ureido)-dodecanoic acid n-butyl ester was given by daily s. c. injection to spontaneously hypertensive rats exposed to filtered air or tobacco smoke for a period of 3 days (6 h/day). Acute exposure to tobacco smoke significantly increased by 3. 2-fold (P <0. 05) the number of cells recovered by bronchoalveolar lavage. The sEH inhibitor significantly decreased total bronchoalveolar lavage cell number by 37% in tobacco smoke-exposed rats with significant reductions noted in neutrophils, alveolar macrophages, and lymphocytes. A combination of sEH inhibitor and EETs was more significant in its ability to further reduce tobacco smoke-induced inflammation compared with the sEH inhibitor alone. The sEH inhibitor led to a shift in some plasma epoxides and diols that are consistent with the hypothetical action of these compounds. We conclude that an sEH inhibitor, in the presence or absence of EETs, can attenuate, in part, inflammation associated with acute exposure to tobacco smoke. .

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Figures

Fig. 1.
Fig. 1.
Blood concentration-time profiles of AUDA-nBE and AUDA in SH rats after s.c. administration of 10 mg/kg AUDA-nBE. Data represent the mean ± SD (n = 3 animals). Inset shows structures of the parent (AUDA-nBE) and major active metabolite (AUDA). PK parameters were obtained by fitting the blood concentration-time data to a noncompartmental model. PK parameters are as follows: λz (1/h), 0.0309; Tmax (h), 2.00; Cmax (nM), 136.6; T1/2 (h), 22.4; area under the concentration-time curve to terminal time (AUCt) (nM·h), 4,540; mean residence time (hr), 25.1. The concentration of AUDA after 72 h was 37.3 nM after a single s.c. administration. AUDA concentrations after 3 days of exposure to filtered air or tobacco smoke in rats treated with daily (total of three) s.c. injections of AUDA-nBE were as follows (mean ± SD): filtered air, AUDA-nBE, and EETs, 208 ± 16 nM; filtered air and AUDA-nBE, 152 ± 23 nM; tobacco smoke, AUDA-nBE, and EETs, 298 ± 126 nM; tobacco smoke and AUDA-nBE, 325 ± 117 nM (the last two values had a single high value).
Fig. 2.
Fig. 2.
Bronchoalveolar lavage cell characteristics after exposure of rats to filtered air or tobacco smoke. Numbers of total cells (A), macrophages (B), neutrophils (C), lymphocytes (D), and eosinophils (E) in BAL from rats exposed to filtered air or tobacco smoke for 3 days. Rats were exposed to filtered air (gray bars) after treatment with vehicle, AUDA-nBE, or AUDA-nBE and EETs. Additional rats were exposed to tobacco smoke (black bars) after treatment with vehicle, AUDA-nBE, or AUDA-nBE and EETs. Data are presented as mean ± SD (n = 4). †, P < 0.05 compared with respective filtered air control. ‡, P < 0.05 compared with tobacco smoke and vehicle. §, P < 0.05 compared with tobacco smoke and AUDA-nBE. ¶, P < 0.05 compared with filtered air and vehicle. No eosinophils were observed in BAL from animals treated with vehicle before exposure to filtered air or from animals treated with AUDA-nBE and EETs before exposure to tobacco smoke.
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