Bishop M P, Pilia P A, Moorman W J, Ainsworth S K
Environ Health Perspect. 1986 Apr;66:61-71. doi: 10.1289/ehp.866661.
New Zealand White rabbits were acutely bronchochallenged for 5 min to ascertain airway responsiveness with six potential byssinogenic agents and mediators: 0.1 g/mL cotton dust extract (CDE), 0.1 g/mL cotton bract extract (CBE), 1 mg/mL endotoxin, 1 mg/mL n-formyl methionyl peptide (n-fMet), 10 mg/mL 5-hydroxytryptamine (5-HT), and 1 mg/mL prostaglandin F2 alpha (PGF2 alpha). Methacholine (MC), 10 mg/mL, was used as a control bronchoconstrictor. Clinically objective criteria were established using increases in resistance values compared to those obtained with saline controls. Animals were classified as: mild responders (Mi) = 125-149%; moderate responders (Mo) = 150-199%; or severe responders (S) = greater than 200%. Three of five (2Mo, 1S) rabbits showed increased pulmonary resistance to CDE bronchochallenge, 3/5 (1Mi, 1Mo, 1S) to CBE, 1/5 (Mo) to purified endotoxin, 4/5 (1Mo, 3S) to n-fMet, 3/5 (1Mi, 1Mo, 1S) to 5-HT, and 2/5 (1Mo, 1S) to PGF2 alpha. All five rabbits (1Mo, 4S) responded to MC bronchochallenge. Rabbits responded minimally to saline, the common solvent of all test agents; however, when challenged with methacholine, a known bronchoconstrictor, rabbits showed significant overt symptoms of acute respiratory distress with immediate and substantial increases in resistance over saline controls. CDE, CBE, and n-fMet inhalation challenge resulted in a majority or all animals showing increased resistance. 5-HT contained in CDE and CBE, exhibited similar resistance increases; however, endotoxin, also found in cotton dust, showed little airway reactivity. The rabbit is useful for characterizing changes in pulmonary function parameters seen in the acute byssinotic reaction. This study has demonstrated that bronchochallenge in the rabbit with potential byssinogenic agents (CDE, CBE, endotoxin, and n-fMet) and mediators (5-HT and PGF2 alpha) result in measurable changes in airway function, particularly increased resistance. Since bronchoconstriction is the major clinical manifestation of the acute byssinotic reaction in man and animals, it is likely that bronchoconstriction observed in cotton mill workers may be in part or totally the result of inherent dust constrictor substances or secondarily released mediators.
对新西兰白兔进行5分钟的急性支气管激发试验,以确定其对六种潜在的棉尘致病因和介质的气道反应性:0.1 g/mL棉尘提取物(CDE)、0.1 g/mL棉苞提取物(CBE)、1 mg/mL内毒素、1 mg/mL N-甲酰甲硫氨酸肽(n-fMet)、10 mg/mL 5-羟色胺(5-HT)和1 mg/mL前列腺素F2α(PGF2α)。10 mg/mL的乙酰甲胆碱(MC)用作对照支气管收缩剂。通过与生理盐水对照组相比的阻力值增加来建立临床客观标准。动物被分类为:轻度反应者(Mi)=125 - 149%;中度反应者(Mo)=150 - 199%;或重度反应者(S)=大于200%。五只兔子中有三只(2只Mo,1只S)对CDE支气管激发试验表现出肺阻力增加,五只中有三只(1只Mi,1只Mo,1只S)对CBE有反应,五只中有一只(Mo)对纯化内毒素有反应,五只中有四只(1只Mo,3只S)对n-fMet有反应,五只中有三只(1只Mi,1只Mo,1只S)对5-HT有反应,五只中有两只(1只Mo,1只S)对PGF2α有反应。所有五只兔子(1只Mo,4只S)对MC支气管激发试验有反应。兔子对所有测试剂的常用溶剂生理盐水反应极小;然而,当用已知的支气管收缩剂乙酰甲胆碱进行激发试验时,兔子出现了急性呼吸窘迫的明显症状,与生理盐水对照组相比,阻力立即大幅增加。吸入CDE、CBE和n-fMet激发试验导致大多数或所有动物的阻力增加。CDE和CBE中含有的5-HT表现出类似的阻力增加;然而,棉尘中也含有的内毒素显示出很少的气道反应性。兔子有助于表征棉尘病急性反应中所见的肺功能参数变化。本研究表明,用潜在的棉尘致病因(CDE、CBE、内毒素和n-fMet)和介质(5-HT和PGF2α)对兔子进行支气管激发试验会导致气道功能发生可测量的变化,特别是阻力增加。由于支气管收缩是人和动物棉尘病急性反应的主要临床表现,棉纺厂工人中观察到的支气管收缩可能部分或完全是由于固有粉尘收缩物质或继发释放的介质所致。