CD8+ T-lymphocytes in peripheral airways of smokers with chronic obstructive pulmonary disease

Ongoing airway inflammation in patients with COPD who do not currently smoke

BACKGROUND

Inflammatory changes in the airways in chronic obstructive pulmonary disease (COPD) are largely attributed to smoking, yet they may be present even if patients do not currently smoke. The differences in inflammatory cells and the factors contributing to these differences were examined in the airways of patients with COPD who do not currently smoke.

METHODS

Eighteen non-atopic subjects with COPD (14 men) of mean (SD) age 62 (8) years and forced expiratory volume in one second (FEV(1)) 59 (13)% predicted and 11 non-atopic healthy subjects (eight men) of mean (SD) age 58 (8) years, FEV(1) 104 (11)% predicted were studied. Sputum induction and bronchoscopy with bronchoalveolar lavage (BAL) and biopsies were performed.

RESULTS

Patients with COPD had more mucosal EG2+ cells (eosinophils) (median (range) 40 (0-190) versus 5 (0-40) cells/mm(2), p = 0.049) and CD68+ cells (1115 (330-2920) versus 590 (450-1580) cells/mm(2), p = 0.03), and a tendency towards more CD4+ but not CD8+ lymphocytes than healthy controls. Furthermore, patients with COPD had higher percentages of sputum neutrophils (77 (29-94) versus 36 (18-60)%, p = 0.001) and eosinophils (1.2 (0-8.5) versus 0.2 (0-3.1)%, p = 0.008), BAL fluid eosinophils (0.4 (0-1.7) versus 0.2 (0-0.5)%, p = 0.03), and higher concentrations of sputum eosinophilic cationic protein (ECP) (838 (115-23 760) versus 121 (35-218) ng/ml, p<0.001). Concentrations of ECP expressed per eosinophil were not higher. Patients with COPD with high mucosal EG2+ cell numbers also had high mucosal CD4+ cell numbers. Sputum eosinophilia was associated with a decrease in FEV(1)/VC and BAL fluid eosinophilia with a decrease in mucosal NP57+ cells (neutrophils).

CONCLUSIONS

Subjects with COPD who do not currently smoke have increased numbers of inflammatory cells. Eosinophils are increased in number in the airways in COPD but do not seem to be activated. The increased eosinophil numbers are probably due to recruitment as a result of ongoing inflammation. Macrophages and lymphocytes may play a part in this inflammation.

Chronic obstructive pulmonary disease. Inflammation of small airways and lung parenchyma

Currently available information suggests that cigarette smoke-induced lung inflammation has a pathogenic role in the development of COPD. Neutrophils, eosinophils, alveolar macrophages, and lymphocytes all appear to participate in the inflammatory process. However, the respective importance of these cells and their level of activation are difficult to quantitate because disease phenotyping, and compartmentalization of inflammation and markers of inflammation in the lung, influence the obtained data and bias their interpretation. Bronchoscopic biopsies are typically obtained from larger, cartilaginous airways containing submucosal glands whereas the site of airflow obstruction in COPD is predominantly the membranous bronchiole, devoid of cartilage and submucosal glands. This makes it difficult to establish structure-function relationships. The proportion of neutrophils has been reported to increase in repeated induced sputum and bronchoalveolar lavage samples. This observation suggests neutrophil recruitment into the airway is induced by the tests or sampling of different airway compartments in subsequent tests. There appears to be a good correlation between the proportions of eosinophils in induced sputum and bronchoalveolar lavage fluid on the one hand and in airway tissue on the other. However, this is not the case for other inflammatory cells, especially T lymphocytes, which are more numerous in airway tissue. Despite these inconsistencies, induced sputum, bronchoalveolar lavage, and bronchial biopsies can be used as markers of inflammation in COPD as long as their limitations are recognized. Cosio MG, Guerassimov A. Chronic obstructive pulmonary disease: inflammation of small airways and lung parenchyma.

CD8(+) T cell subsets and chronic obstructive pulmonary disease

COPD is a debilitating and progressive condition in which the airways become irreversibly obstructed and the lungs progressively damaged. Unlike asthma, we know little about the cells that initiate and drive this process. Research has shown that CD8(+) T cells are overrepresented in the lungs of patients with COPD and that they are inversely related to lung function. However, not all CD8(+) T cells are alike and subsets that make IFN-gamma but not IL-4 (Tc1), IL-4 but not IFN-gamma (Tc2) as well as those that make both (Tc0) have been described. This article focuses on the characteristics of CD8(+) T cell subsets and considers their potential contribution to chronic obstructive pulmonary disease (COPD). Kemeny DM, Vyas B, Vukmanovic-Stejic M, Thomas M, Noble A, Loh LC, O'Connor BJ. CD8(+) T cell subsets and chronic obstructive pulmonary disease.

Airway inflammation in chronic obstructive pulmonary disease

Cigarette smoking causes an inflammatory process in the central airways, peripheral airways, and lung parenchyma, even in smokers with normal lung function. The characteristics of this inflammatory process differ between smokers who develop chronic airflow limitation (COPD) and those who do not develop chronic airflow limitation: there is an increased infiltration of CD8-positive T lymphocytes in smokers with COPD. We examine whether airway inflammation alters with increasing severity of disease. When the disease becomes severe, a prominent neutrophilia occurs. The precise roles of the CD8(+) T lymphocyte and the neutrophil in the pathogenesis of COPD still remain to be determined. Saetta M. Airway inflammation in chronic obstructive pulmonary disease.

CD8+ve cells in the lungs of smokers with chronic obstructive pulmonary disease

Previous studies have shown an increased number of inflammatory cells and, in particular, CD8+ve cells in the airways of smokers with chronic obstructive pulmonary disease (COPD). In this study we investigated whether a similar inflammatory process is also present in the lungs, and particularly in lung parenchyma and pulmonary arteries. We examined surgical specimens from three groups of subjects undergoing lung resection for localized pulmonary lesions: nonsmokers (n = 8), asymptomatic smokers with normal lung function (n = 6), and smokers with COPD (n = 10). Alveolar walls and pulmonary arteries were examined with immunohistochemical methods to identify neutrophils, eosinophils, mast cells, macrophages, and CD4+ve and CD8+ve cells. Smokers with COPD had an increased number of CD8+ve cells in both lung parenchyma (p < 0.05) and pulmonary arteries (p < 0.001) as compared with nonsmokers. CD8+ve cells were also increased in pulmonary arteries of smokers with COPD as compared with smokers with normal lung function (p < 0.01). Other inflammatory cells were no different among the three groups. The number of CD8+ve cells in both lung parenchyma and pulmonary arteries was significantly correlated with the degree of airflow limitation in smokers. These results show that an inflammatory process similar to that present in the conducting airways is also present in lung parenchyma and pulmonary arteries of smokers with COPD.

Inflammatory reaction in pulmonary muscular arteries of patients with mild chronic obstructive pulmonary disease

Endothelial dysfunction and intimal thickening have been shown in pulmonary arteries (PA) of patients with mild chronic obstructive pulmonary disease (COPD). To investigate whether an inflammatory process related to tobacco smoking might be involved in the development of pulmonary vascular abnormalities in COPD, we characterized the inflammatory cell infiltrate and the endothelium-dependent relaxation in PA of 39 patients who underwent lung resection, divided into three groups: "nonsmokers" (n = 7); "smokers," with normal lung function (n = 12); and "COPD" (n = 20). Endothelium-dependent relaxation was assessed in vitro by exposing PA rings to adenosine diphosphate (ADP). Inflammatory cell types were identified by immunohistochemistry. PA of COPD patients developed lower relaxation in response to ADP than nonsmokers and smokers. The number of inflammatory cells was increased in PA of COPD compared with the other two groups. This cell infiltrate was largely constituted by T lymphocytes. The CD8(+) T-cell subset was increased in both smokers and COPD compared with nonsmokers, yielding a reduction of the CD4(+)/CD8(+) ratio. The intensity of the inflammatory infiltrate correlated with both the endothelium-dependent relaxation and the intimal thickness. We conclude that cigarette smoking induces a CD8(+) T-lymphocyte infiltrate in PA, which is associated with the impairment of the vessel's structure and function, suggesting the potential involvement of an inflammatory process in the pathogenesis of pulmonary vascular abnormalities in the early stage of COPD.