精氨酸酶可减弱抑制性非肾上腺素能非胆碱能神经诱导的一氧化氮生成及气道平滑肌舒张。
Arginase attenuates inhibitory nonadrenergic noncholinergic nerve-induced nitric oxide generation and airway smooth muscle relaxation.
作者信息
Maarsingh Harm, Tio Marieke A, Zaagsma Johan, Meurs Herman
机构信息
Department of Molecular Pharmacology, University Centre for Pharmacy, University of Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, The Netherlands.
出版信息
Respir Res. 2005 Mar 4;6(1):23. doi: 10.1186/1465-9921-6-23.
BACKGROUND
Recent evidence suggests that endogenous arginase activity potentiates airway responsiveness to methacholine by attenuation of agonist-induced nitric oxide (NO) production, presumably by competition with epithelial constitutive NO synthase for the common substrate, L-arginine. Using guinea pig tracheal open-ring preparations, we now investigated the involvement of arginase in the modulation of neuronal nitric oxide synthase (nNOS)-mediated relaxation induced by inhibitory nonadrenergic noncholinergic (iNANC) nerve stimulation.
METHODS
Electrical field stimulation (EFS; 150 mA, 4 ms, 4 s, 0.5 - 16 Hz)-induced relaxation was measured in tracheal preparations precontracted to 30% with histamine, in the presence of 1 microM atropine and 3 microM indomethacin. The contribution of NO to the EFS-induced relaxation was assessed by the nonselective NOS inhibitor L-NNA (0.1 mM), 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 nor-NOHA (10 microM). Furthermore, the role of substrate availability to nNOS in EFS-induced relaxation was measured in the presence of various concentrations of exogenous L-arginine.
RESULTS
EFS induced a frequency-dependent relaxation, ranging from 6.6 +/- 0.8% at 0.5 Hz to 74.6 +/- 1.2% at 16 Hz, which was inhibited with the NOS inhibitor L-NNA by 78.0 +/- 10.5% at 0.5 Hz to 26.7 +/- 7.7% at 8 Hz (P < 0.01 all). In contrast, the arginase inhibitor nor-NOHA increased EFS-induced relaxation by 3.3 +/- 1.2-fold at 0.5 Hz to 1.2 +/- 0.1-fold at 4 Hz (P < 0.05 all), which was reversed by L-NNA to the level of control airways in the presence of L-NNA (P < 0.01 all). Similar to nor-NOHA, exogenous L-arginine increased EFS-induced airway relaxation (P < 0.05 all).
CONCLUSION
The results indicate that endogenous arginase activity attenuates iNANC nerve-mediated airway relaxation by inhibition of NO generation, presumably by limiting L-arginine availability to nNOS.
背景
最近的证据表明,内源性精氨酸酶活性通过减弱激动剂诱导的一氧化氮(NO)生成来增强气道对乙酰甲胆碱的反应性,推测是通过与上皮型组成型NO合酶竞争共同底物L-精氨酸来实现的。我们现在使用豚鼠气管开环制备物,研究了精氨酸酶在调节抑制性非肾上腺素能非胆碱能(iNANC)神经刺激诱导的神经元型一氧化氮合酶(nNOS)介导的舒张中的作用。
方法
在预先用组胺收缩至30%的气管制备物中,于1 μM阿托品和3 μM吲哚美辛存在的情况下,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L-NNA(0.1 mM)评估NO对EFS诱导舒张的贡献,而通过特异性精氨酸酶抑制剂nor-NOHA(10 μM)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,在存在不同浓度外源性L-精氨酸的情况下,测量底物可用性对nNOS在EFS诱导舒张中的作用。
结果
EFS诱导了频率依赖性舒张,范围从0.5 Hz时的6.6±0.8%到16 Hz时的74.6±1.2%,NOS抑制剂L-NNA在0.5 Hz时将其抑制78.0±10.5%,在8 Hz时抑制26.7±7.7%(所有P<0.01)。相反,精氨酸酶抑制剂nor-NOHA在0.5 Hz时使EFS诱导的舒张增加3.3±1.2倍,在4 Hz时增加1.2±0.1倍(所有P<0.05),在L-NNA存在的情况下,L-NNA将其逆转至对照气道水平(所有P<0.01)。与nor-NOHA相似,外源性L-精氨酸增加了EFS诱导的气道舒张(所有P<0.05)。
结论
结果表明,内源性精氨酸酶活性通过抑制NO生成来减弱iNANC神经介导的气道舒张,推测是通过限制nNOS的L-精氨酸可用性来实现的。
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