Forteza R, Botvinnikova Y, Ahmed A, Cortes A, Gundel R H, Wanner A, Abraham W M
Pulmonary Division, University of Miami, Mt. Sinai Medical Center, Florida 33140, USA.
Am J Respir Crit Care Med. 1996 Jul;154(1):36-42. doi: 10.1164/ajrccm.154.1.8680696.
We reported previously that the development of airway hyperresponsiveness (AHR) 24 h after antigen challenge in allergic sheep was associated with increased tissue kallikrein activity (TK) and decreased alpha-1-proteinase inhibitor (alpha 1-PI) activity in bronchoalveolar fluid (BAL). The inverse correlation between TK and alpha 1-PI in these experiments suggested that administration of alpha 1-PI might reduce TK activity and block AHR. To test this hypothesis, airway responsiveness, as determined by calculating the cumulative carbachol breath units (BU) that increased specific lung resistance by 400% (PC400), was measured before and 24 h after aerosol challenge with Ascaris suum antigen in seven sheep hypersensitive to this antigen. On the next day, 30 min before the 24 h PC400 measurement, the sheep were treated with either aerosol alpha 1-PI (Prolastin, 10 mg/5 ml) or denatured (DN) prolastin (10 mg/5 ml), which had only 10% of its original activity. BAL was also performed before and 24 h after challenge for the measurement of TK and alpha 1-PI activity. Treatment with DN-Prolastin at 24 h after antigen challenge did not block antigen-induced AHR: PC400 fell from a baseline (mean +/- SE) of 26.0 +/- 3.2 BU to 11.2 +/- 1.5 BU after challenge (p < 0.05). This AHR was associated with increased TK (363%, p < 0.05) and decreased alpha 1-PI activity (65%, p < 0.05). Prolastin treatment at 24 h blocked the AHR: PC400 was 21.0 +/- 2.8 before and 23.2 +/- 3.7 after challenge (p < 0.05 versus DN-Prolastin) and the changes in BAL TK (28% increase) and alpha 1-PI activities (15% increase) were not different from baseline (both p < 0.05 versus DN-Prolastin). There was a significant inverse correlation between alpha 1-PI activity and TK activity in BAL, as well as the changes between baseline and 24 h in alpha 1-PI activity and TK activity in BAL Pretreatment (30 min before antigen challenge) with Prolastin also protected against the antigen-induced AHR. The effect of Prolastin was also seen against aerosol challenge with high-molecular-weight kininogen (HMWK), a substrate of TK. HMWK caused bronchoconstriction which was blocked by Prolastin (p < 0.05), and the bradykinin B2 antagonist, NPC-567 (indicating that kinins were generated), but not DN-Prolastin or the elastase inhibitor, ICI 200, 355. Although the negative association between alpha 1-PI activity and TK activity identified in this study does not prove cause and effect, our findings do raise the possibility that in vivo alpha 1-PI may regulate TK activity and allergen-induced AHR.
我们之前报道过,在变应性绵羊中,抗原激发后24小时气道高反应性(AHR)的发展与支气管肺泡灌洗液(BAL)中组织激肽释放酶活性(TK)增加及α1-蛋白酶抑制剂(α1-PI)活性降低有关。这些实验中TK与α1-PI之间的负相关表明,给予α1-PI可能会降低TK活性并阻断AHR。为验证这一假设,在用猪蛔虫抗原进行雾化激发前及激发后24小时,对7只对该抗原过敏的绵羊测量气道反应性,通过计算使特定肺阻力增加400%(PC400)的累积卡巴胆碱呼吸单位(BU)来确定。次日,在24小时PC400测量前30分钟,给绵羊雾化给予α1-PI(普洛斯汀,10mg/5ml)或变性(DN)普洛斯汀(10mg/5ml),后者仅具有其原始活性的10%。在激发前及激发后24小时也进行BAL以测量TK和α1-PI活性。抗原激发后24小时用DN-普洛斯汀治疗未阻断抗原诱导的AHR:PC400从基线(均值±标准误)26.0±3.2 BU降至激发后11.2±1.5 BU(p<0.05)。这种AHR与TK增加(363%,p<0.05)及α1-PI活性降低(65%,p<0.05)有关。普洛斯汀治疗在24小时阻断了AHR:PC400在激发前为21.0±2.8,激发后为23.2±3.7(与DN-普洛斯汀相比p<0.05),BAL中TK(增加28%)和α1-PI活性(增加15%)的变化与基线无差异(与DN-普洛斯汀相比均p<0.05)。BAL中α1-PI活性与TK活性之间存在显著负相关,以及BAL中α1-PI活性和TK活性在基线与24小时之间的变化 用普洛斯汀预处理(抗原激发前30分钟)也可预防抗原诱导的AHR。在用高分子量激肽原(HMWK)进行雾化激发时也可见到普洛斯汀的作用,HMWK是TK的一种底物。HMWK引起支气管收缩,被普洛斯汀阻断(p<0.05),以及缓激肽B2拮抗剂NPC-567(表明生成了激肽),但未被DN-普洛斯汀或弹性蛋白酶抑制剂ICI 200 355阻断。尽管本研究中确定的α1-PI活性与TK活性之间的负相关并未证明因果关系,但我们的发现确实增加了体内α1-PI可能调节TK活性和变应原诱导的AHR的可能性。
