Kennedy J D, Hatfield C A, Fidler S F, Winterrowd G E, Haas J V, Chin J E, Richards I M
Upjohn Laboratories, Kalamazoo, Michigan 49001, USA.
Am J Respir Cell Mol Biol. 1995 Jun;12(6):613-23. doi: 10.1165/ajrcmb.12.6.7766426.
Cytokines released from CD4+ T lymphocytes contribute to the pathogenesis of asthma by influencing the differentiation and function of eosinophils, the primary effector cells that cause airway epithelial damage. Using a model of ovalbumin (OA)-induced, eosinophil-rich chronic lung inflammation in sensitized mice, we have defined the role of T lymphocytes further by using three-color flow cytometry to characterize the adhesion and activation antigens that may be associated with the migration of these cells into the lung and airway lumen. OA inhalation in OA-sensitized C57BL/6 mice resulted in an early (6 to 24 h) influx of neutrophils into the bronchial lumen as enumerated by bronchoalveolar lavage (BAL), which was followed by a marked accumulation of lymphocytes and eosinophils between 24 to 72 h. Phenotypic analysis of BAL or lung tissue T cells showed that most Thy-1 CD3+ T cells were CD4+ (CD4: CD8 ratio of 3 to 4:1). The majority (90%) of the T cells in lung or BAL fluid expressed alpha beta T-cell receptors (TCR). Only 3 to 7% of the T cells were gamma delta TCR+ even though almost 25% of the T cells were CD4- CD8-. There were very few natural killer (NK) or B cells in BAL fluid compared with 15% B cells in dissagregated lung tissue. In contrast to T cells in spleen, almost all the lung and BAL T cells were of the memory phenotype, as ascertained by the expression of high levels of CD44 and by the absence of L-selectin and CD45RB on the cell surface. Fifty to ninety percent of lung and BAL T cells from vehicle-sensitized or OA-sensitized and challenged mice expressed the adhesion molecules CD11a (LFA-1), CD54 (ICAM-1), and CD49d (VLA-4). The early T-cell activation marker CD69 was upregulated on 30% of the lung and BAL T cells in OA-sensitized mice after antigen inhalation. When BAL fluid T cells from OA-sensitized and challenged mice were analyzed for their coexpression of adhesion and/or activation molecules, 75% of the cells that expressed one of three adhesion molecules, CD54, CD49d, or CD11a, also expressed at least one of the other two antigens. At least 15% of BAL T cells had all three of these molecules on their cell surfaces. The OA-dependent, temporally regulated emigration of T cells into the bronchial lumen after exposure to aerosolized antigen may be correlated with the accumulation of cells that express the memory phenotype with enhanced expression of adhesion molecules.
CD4+ T淋巴细胞释放的细胞因子通过影响嗜酸性粒细胞的分化和功能,促进哮喘的发病机制。嗜酸性粒细胞是导致气道上皮损伤的主要效应细胞。利用卵清蛋白(OA)诱导的致敏小鼠嗜酸性粒细胞丰富的慢性肺部炎症模型,我们通过三色流式细胞术进一步确定了T淋巴细胞的作用,以表征可能与这些细胞迁移到肺和气道腔相关的黏附及激活抗原。在OA致敏的C57BL/6小鼠中吸入OA,支气管肺泡灌洗(BAL)显示,中性粒细胞在早期(6至24小时)流入支气管腔,随后在24至72小时淋巴细胞和嗜酸性粒细胞显著积聚。对BAL或肺组织T细胞进行表型分析显示,大多数Thy-1 CD3+ T细胞为CD4+(CD4:CD8比例为3至4:1)。肺或BAL液中大多数(90%)的T细胞表达αβ T细胞受体(TCR)。尽管几乎25%的T细胞为CD4- CD8-,但只有3至7%的T细胞为γδ TCR+。与解离的肺组织中15%的B细胞相比,BAL液中的自然杀伤(NK)细胞或B细胞非常少。与脾脏中的T细胞相比,几乎所有肺和BAL T细胞均为记忆表型,这可通过细胞表面高水平表达CD44以及缺乏L-选择素和CD45RB来确定。来自溶剂致敏或OA致敏并激发的小鼠的肺和BAL T细胞中,50%至90%表达黏附分子CD11a(LFA-1)、CD54(ICAM-1)和CD49d(VLA-4)。在吸入抗原后,OA致敏小鼠中30%的肺和BAL T细胞上早期T细胞激活标志物CD69上调。当分析来自OA致敏并激发的小鼠的BAL液T细胞黏附分子和/或激活分子的共表达时,表达三种黏附分子(CD54、CD49d或CD11a)之一的细胞中,75%也表达其他两种抗原中的至少一种。至少15%的BAL T细胞在其细胞表面具有所有这三种分子。暴露于雾化抗原后,T细胞依赖OA且随时间调节地迁移到支气管腔,这可能与表达记忆表型且黏附分子表达增强的细胞积聚相关。
