Barrett Edward G, Rudolph Karin, Bowen Larry E, Muggenburg Bruce A, Bice David E
Lovelace Respiratory Research Institute, Albuquerque, NM 87108, USA.
Inhal Toxicol. 2003 Feb;15(2):151-65. doi: 10.1080/08958370304474.
Episodic increases in air pollution have been associated with the exacerbation of asthma symptoms. Ultrafine particles are a component of air pollution and may be involved in causing the adverse health effects associated with high air pollution. We evaluated the effects of ultrafine particle inhalation on immune and airway responses in a beagle dog model of allergic asthma. Six allergic (ragweed sensitive) and six nonallergic dogs were exposed to ultrafine carbon particles (232.3 +/- 2.5 microg/m(3), 35.2 +/- 0.3 nm) for 1 h, followed by a challenge with vehicle (water) as a negative control. Airway resistance was measured during particle exposure and after vehicle challenge. Immune responses 3 days before and after (1 h and 1, 4, 7, and 11 days) particle exposure were assessed by measuring total immunoglobulin E (IgE) and ragweed-specific IgE and IgG in serum and bronchoalveolar lavage fluid (BALF), and cell differentials in BALF. Each dog was exposed a second time to ultrafine carbon particles (251.4 +/- 5.3 microg/m(3), 34.9 +/- 0.5 nm) for 1 h followed by a challenge with ragweed and the same measurements. Airway resistance did not change during particle exposure in any of the dogs, and ragweed-induced airway reactivity was not altered by particle exposure. Total and ragweed-specific serum IgE and total IgE in BALF were higher in allergic dogs at all time points. Particle exposure did not affect antibody levels in serum or BALF in allergic dogs. Nonallergic dogs developed specific IgG in response to multiple inhalation exposures to ragweed, but this was not associated with particle exposure. Neutrophils were elevated in BALF for all groups 1 day after particle exposure. In conclusion, despite the induction of low level inflammation in the lungs of allergic and nonallergic dogs, exposure to ultrafine carbon particles did not alter airway reactivity or immune responses.
空气污染的间歇性增加与哮喘症状的加重有关。超细颗粒是空气污染的一个组成部分,可能参与导致与高空气污染相关的不良健康影响。我们在过敏性哮喘的比格犬模型中评估了吸入超细颗粒对免疫和气道反应的影响。六只过敏性(对豚草敏感)和六只非过敏性犬暴露于超细碳颗粒(232.3±2.5微克/立方米,35.2±0.3纳米)1小时,随后用媒介物(水)进行激发作为阴性对照。在颗粒暴露期间和媒介物激发后测量气道阻力。通过测量血清和支气管肺泡灌洗液(BALF)中的总免疫球蛋白E(IgE)、豚草特异性IgE和IgG以及BALF中的细胞分类来评估颗粒暴露前3天和暴露后(1小时以及1、4、7和11天)的免疫反应。每只犬再次暴露于超细碳颗粒(251.4±5.3微克/立方米,34.9±0.5纳米)1小时,随后用豚草进行激发并进行相同测量。在任何一只犬的颗粒暴露期间气道阻力均未改变,并且颗粒暴露未改变豚草诱导的气道反应性。在所有时间点,过敏性犬血清中的总IgE和豚草特异性IgE以及BALF中的总IgE均较高。颗粒暴露未影响过敏性犬血清或BALF中的抗体水平。非过敏性犬在多次吸入豚草后产生了特异性IgG,但这与颗粒暴露无关。颗粒暴露后1天,所有组的BALF中中性粒细胞均升高。总之,尽管在过敏性和非过敏性犬的肺部诱导了低水平炎症,但暴露于超细碳颗粒并未改变气道反应性或免疫反应。
