精氨酸酶严重损害过敏性哮喘中神经元型一氧化氮介导的气道平滑肌舒张。
Arginase strongly impairs neuronal nitric oxide-mediated airway smooth muscle relaxation in allergic asthma.
作者信息
Maarsingh Harm, Leusink John, Bos I Sophie T, Zaagsma Johan, Meurs Herman
机构信息
Department of Molecular Pharmacology, Centre for Pharmacy, University of Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, The Netherlands.
出版信息
Respir Res. 2006 Jan 12;7(1):6. doi: 10.1186/1465-9921-7-6.
BACKGROUND
Using guinea pig tracheal preparations, we have recently shown that endogenous arginase activity attenuates inhibitory nonadrenergic noncholinergic (iNANC) nerve-mediated airway smooth muscle relaxation by reducing nitric oxide (NO) production--due to competition with neuronal NO-synthase (nNOS) for the common substrate, L-arginine. Furthermore, in a guinea pig model of allergic asthma, airway arginase activity is markedly increased after the early asthmatic reaction (EAR), leading to deficiency of agonist-induced, epithelium-derived NO and subsequent airway hyperreactivity. In this study, we investigated whether increased arginase activity after the EAR affects iNANC nerve-derived NO production and airway smooth muscle relaxation.
METHODS
Electrical field stimulation (EFS; 150 mA, 4 ms, 4 s, 0.5-16 Hz)-induced relaxation was measured in tracheal open-ring preparations precontracted to 30% with histamine in the presence of 1 microM atropine and 3 microM indomethacin. The contribution of NO to EFS-induced relaxation was assessed by the nonselective NOS inhibitor Nomega-nitro-L-arginine (L-NNA, 100 microM), while the involvement of arginase activity in the regulation of EFS-induced NO production and relaxation was investigated by the effect of the specific arginase inhibitor Nomega-hydroxy-nor-L-arginine (nor-NOHA, 10 microM). Furthermore, the role of substrate availability to nNOS was measured in the presence of exogenous L-arginine (5.0 mM).
RESULTS
At 6 h after ovalbumin-challenge (after the EAR), EFS-induced relaxation (ranging from 3.2 +/- 1.1% at 0.5 Hz to 58.5 +/- 2.2% at 16 Hz) was significantly decreased compared to unchallenged controls (7.1 +/- 0.8% to 75.8 +/- 0.7%; P < 0.05 all). In contrast to unchallenged controls, the NOS inhibitor L-NNA did not affect EFS-induced relaxation after allergen challenge, indicating that NO deficiency underlies the impaired relaxation. Remarkably, the specific arginase inhibitor nor-NOHA normalized the impaired relaxation to unchallenged control (P < 0.05 all), which effect was inhibited by L-NNA (P < 0.01 all). Moreover, the effect of nor-NOHA was mimicked by exogenous L-arginine.
CONCLUSION
The results clearly demonstrate that increased arginase activity after the allergen-induced EAR contributes to a deficiency of iNANC nerve-derived NO and decreased airway smooth muscle relaxation, presumably via increased substrate competition with nNOS.
背景
我们最近利用豚鼠气管制备物发现,内源性精氨酸酶活性通过减少一氧化氮(NO)生成来减弱抑制性非肾上腺素能非胆碱能(iNANC)神经介导的气道平滑肌舒张——这是由于与神经元型一氧化氮合酶(nNOS)竞争共同底物L-精氨酸所致。此外,在过敏性哮喘豚鼠模型中,早期哮喘反应(EAR)后气道精氨酸酶活性显著增加,导致激动剂诱导的、上皮来源的NO缺乏以及随后的气道高反应性。在本研究中,我们调查了EAR后增加的精氨酸酶活性是否影响iNANC神经源性NO生成和气道平滑肌舒张。
方法
在1 microM阿托品和3 microM吲哚美辛存在的情况下,对用组胺预收缩至30%的气管开环制备物测量电场刺激(EFS;150 mA,4 ms,4 s,0.5 - 16 Hz)诱导的舒张。通过非选择性NOS抑制剂Nω-硝基-L-精氨酸(L-NNA,100 microM)评估NO对EFS诱导舒张的作用,同时通过特异性精氨酸酶抑制剂Nω-羟基-L-精氨酸(nor-NOHA,10 microM)的作用研究精氨酸酶活性在调节EFS诱导的NO生成和舒张中的作用。此外,在存在外源性L-精氨酸(5.0 mM)的情况下测量底物可用性对nNOS作用的影响。
结果
卵清蛋白激发后6小时(EAR后),EFS诱导的舒张(0.5 Hz时为3.2±1.1%至16 Hz时为58.5±2.2%)与未激发的对照相比显著降低(7.1±0.8%至75.8±0.7%;所有P<0.05)。与未激发的对照相反,NOS抑制剂L-NNA在变应原激发后不影响EFS诱导的舒张,表明NO缺乏是舒张受损的原因。值得注意的是,特异性精氨酸酶抑制剂nor-NOHA使受损的舒张恢复到未激发对照水平(所有P<0.05),该作用被L-NNA抑制(所有P<0.01)。此外,外源性L-精氨酸模拟了nor-NOHA的作用。
结论
结果清楚地表明,变应原诱导的EAR后增加的精氨酸酶活性导致iNANC神经源性NO缺乏和气道平滑肌舒张减少,推测是通过增加与nNOS的底物竞争。
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