变应原诱导的哮喘中支气管保护性一氧化氮合成受损。
Allergen-induced impairment of bronchoprotective nitric oxide synthesis in asthma.
作者信息
Ricciardolo F L, Timmers M C, Geppetti P, van Schadewijk A, Brahim J J, Sont J K, de Gouw H W, Hiemstra P S, van Krieken J H, Sterk P J
机构信息
Department of Pulmonology, Leiden University Medical Center, The Netherlands.
出版信息
J Allergy Clin Immunol. 2001 Aug;108(2):198-204. doi: 10.1067/mai.2001.116572.
BACKGROUND
Endogenous nitric oxide protects against airway hyperresponsiveness (AHR) to bradykinin in mild asthma, whereas AHR to bradykinin is enhanced by inhaled allergens.
OBJECTIVE
Hypothesizing that allergen exposure impairs bronchoprotective nitric oxide within the airways, we studied the effect of the inhaled nitric oxide synthase (NOS) inhibitor N(G)-monomethyl-L-arginine (L-NMMA) on AHR to bradykinin before and after allergen challenge in 10 subjects with atopic asthma.
METHODS
The study consisted of 3 periods (1 diluent and 2 allergen challenges). AHR to bradykinin (PD(20)BK) was examined before and 48 hours after allergen challenge, both after double-blinded pretreatment with L-NMMA or placebo. The accompanying expression of the various NOS isoforms (ecNOS, nNOS, and iNOS) was examined by means of immunohistochemistry in bronchial biopsies obtained after diluent and allergen challenge.
RESULTS
After placebo, AHR to BK worsened after allergen challenge in comparison with before allergen challenge (PD(20)BK, 70.8 nmol [range, 6.3-331] and 257 nmol [35.5-2041], respectively; P =.0004). After L-NMMA, preallergen and postallergen PD(20)BK values (50.1 nmol [1.8-200] vs 52.5 nmol [6.9-204]; P =.88) were similarly reduced (P <.01) and not different from the postplacebo/postallergen value (P >.05). After allergen challenge, the intensity of staining in bronchial epithelium decreased for ecNOS (P =.03) and increased for iNOS (P =.009). These changes in immunostaining were correlated with the accompanying worsening in AHR to BK (R(s) = -0.66 and 0.71; P <.04).
CONCLUSIONS
These data indicate that allergen exposure in asthma induces increased airway hyperresponsiveness to bradykinin through impaired release of bronchoprotective nitric oxide associated with downregulation of ecNOS. This suggests that new therapeutic strategies towards restoring the balance among the NOS isoforms during asthma exacerbations are warranted.
背景
内源性一氧化氮可预防轻度哮喘患者对缓激肽的气道高反应性(AHR),而吸入变应原会增强对缓激肽的AHR。
目的
假设变应原暴露会损害气道内具有支气管保护作用的一氧化氮,我们研究了吸入一氧化氮合酶(NOS)抑制剂N(G)-单甲基-L-精氨酸(L-NMMA)对10名特应性哮喘患者在变应原激发前后对缓激肽的AHR的影响。
方法
该研究包括3个阶段(1个稀释剂阶段和2个变应原激发阶段)。在变应原激发前以及激发后48小时,在双盲预处理L-NMMA或安慰剂后,检测对缓激肽的AHR(PD20BK)。通过免疫组织化学方法,在稀释剂和变应原激发后获取的支气管活检组织中检测各种NOS同工型(ecNOS、nNOS和iNOS)的伴随表达。
结果
安慰剂处理后,与变应原激发前相比,变应原激发后对BK的AHR恶化(PD20BK分别为70.8 nmol[范围6.3 - 331]和257 nmol[35.5 - 2041];P = 0.0004)。L-NMMA处理后,变应原激发前和激发后的PD20BK值(50.1 nmol[1.8 - 200]对52.5 nmol[6.9 - 204];P = 0.88)同样降低(P < 0.01),且与安慰剂处理后/变应原激发后的数值无差异(P > 0.05)。变应原激发后,支气管上皮中ecNOS的染色强度降低(P = 0.03),iNOS的染色强度增加(P = 0.009)。这些免疫染色的变化与对BK的AHR的伴随恶化相关(Rs = -0.66和0.71;P < 0.04)。
结论
这些数据表明,哮喘患者中的变应原暴露通过与ecNOS下调相关的支气管保护一氧化氮释放受损,导致对缓激肽的气道高反应性增加。这表明在哮喘发作期间恢复NOS同工型之间平衡的新治疗策略是必要的。
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