Eleni G. Tzortzaki

Decreased Small Airway and Alveolar CD83+ Dendritic Cells in COPD

BACKGROUND Dendritic cells (DCs) have been reported to be increased in the small airways of patients with COPD, but the maturity status of these cells is unclear. We have quantified the numbers of cells expressing markers associated with DC maturation. METHODS Lung tissue was obtained at resection for lung cancer from 41 patients with COPD (30 current smokers and 11 ex-smokers; 32 steroid-treated patients and 9 steroid-naïve patients), 19 ex-smokers without COPD and 9 never-smokers without COPD. Tissue sections were immunostained for CD1a to mark immature DCs, and for CD83, fascin, and DC-lysosome-associated membrane protein (DC-LAMP) to delineate mature DCs. RESULTS The volume density (ie, the volume of DCs as the percentage volume of the airway wall) comprising CD83+ DCs was significantly reduced in patients with COPD (median, 0; range, 0 to 5.1%) vs smokers (median, 2.8%; range, 0 to 10.2%) and never-smokers (median, 1.9%; range, 0.8 to 5.1%) without COPD (p = 0.000 and 0.012, respectively). Using a semiquantitative score for the alveolar wall, CD83+ DCs also were decreased in patients with COPD (median, 0; range, 0 to 2%) vs smokers (median, 1%; range, 0 to 2%) and never-smokers (median, 1%; range, 0.7 to 2%) without COPD (p = 0.004 and 0.04, respectively). No differences were detected in CD83+ DCs between current smokers and ex-smokers with COPD or between steroid-treated and steroid-naive patients. No differences were detected in CD1a+ DCs. Fascin and DC-LAMP were found to have poor specificity for mature DCs. CONCLUSIONS COPD is associated with decreased numbers of (mature) CD83+ DCs in small airways and alveoli. The relevance of such a reduction on pulmonary immune responses requires further investigation.

Biomarkers in COPD

Chronic Obstructive Pulmonary Disease is characterized by an abnormal inflammatory response of the lungs to noxious particles and gases, caused primarily by cigarette smoking. Although COPD affects the lung, it also produces significant systemic consequences. Inflammation, proteases-antiproteases imbalance, oxidative stress, tissue damage and tissue repair, apoptosis and several genes seem to be involved in the pathogenesis of the disease. The cellular and molecular events underlying COPD pathogenesis are driven by multifunctional molecules including enzymes, cytokines, chemokines, growth factors, lipid mediators and their respective receptors. A large number of biomarkers evaluated in COPD, showed a high degree of redundancy. Nevertheless, current understanding of the pathobiology of COPD suggests a number of biomarkers as potential candidates. The development of relevant markers of lung damage, pulmonary inflammation, and systemic disease will be essential to our further understanding of the natural history of COPD and the discovery of new, effective treatments for its progression. This review summarizes recent findings, on potential pulmonary biomarkers in the induced sputum, the exhaled air condensate, the peripheral blood, the urine, the bronchoalveolar lavage fluid, and in selective cases, in bronchial biopsies.

DNA Damage Due to Oxidative Stress in Chronic Obstructive Pulmonary Disease (COPD)

According to the American Thorasic Society (ATS)/European Respiratory Society (ERS) Statement, chronic obstructive pulmonary disease (COPD) is defined as a preventable and treatable disease with a strong genetic component, characterized by airflow limitation that is not fully reversible, but is usually progressive and associated with an enhanced inflammatory response of the lung to noxious particles or gases. The main features of COPD are chronic inflammation of the airways and progressive destruction of lung parenchyma and alveolar structure. The pathogenesis of COPD is complex due to the interactions of several mechanisms, such as inflammation, proteolytic/antiproteolytic imbalance, oxidative stress, DNA damage, apoptosis, enhanced senescence of the structural cells and defective repair processes. This review focuses on the effects of oxidative DNA damage and the consequent immune responses in COPD. In susceptible individuals, cigarette smoke injures the airway epithelium generating the release of endogenous intracellular molecules or danger-associated molecular patterns from stressed or dying cells. These signals are captured by antigen presenting cells and are transferred to the lymphoid tissue, generating an adaptive immune response and enhancing chronic inflammation.

Deregulation of apoptosis mediators' p53 and bcl2 in lung tissue of COPD patients

Abnormal apoptotic events in chronic obstructive pulmonary disease (COPD) subvert cellular homeostasis and may play a primary role in its pathogenesis. However, studies in human subjects are limited.p53 and bcl2 protein expression was measured by western blot on lung tissue specimens from 43 subjects (23 COPD smokers and 20 non-COPD smokers), using beta-actin as internal control. Additionally, p53 and bcl2 expression patterns were evaluated by immunohistochemistry in formalin-fixed, paraffin-embedded lung tissue sections from the same individuals.Western blot analysis showed statistically significant increased p53 protein levels in COPD smokers in comparison with non-COPD smokers (p = 0.038), while bcl2 protein levels were not statistically different between the two groups. Lung immunohistochemistry showed increased ratio of positive p53-stained type II pneumocytes/total type II pneumocytes in COPD smokers compared to non-COPD smokers (p = 0.01), whereas the p53 staining ratio in alveolar macrophages and in lymphocyte-like cells did not differ statistically between the two groups. On the other hand, bcl2 expression did not differ between the two groups in all three cell types.The increased expression of pro-apoptotic p53 in type II pneumocytes of COPD patients not counterbalanced by the anti-apoptotic bcl2 could reflect increased apoptosis in the alveolar epithelium of COPD patients. Our results confirm previous experiments and support the hypothesis of a disturbance in the balance between the pro- and anti-apoptotic mediators in COPD.

Increased apoptosis of neutrophils in induced sputum of COPD patients

AIM The aim of the current study was to evaluate apoptosis in induced sputum neutrophils and to investigate the relationship between the number of apoptotic cells and clinical parameters in COPD patients. METHODS Twenty-four COPD ex-smoker patients and 10 healthy controls were included in the study. All subjects underwent clinical evaluation and sputum induction. Sputum cell in situ apoptosis was identified using white light microscopy and TUNEL assay technique. Apoptosis of neutrophils obtained by sputum induction was expressed as apoptotic rate (AR=percentage of apoptotic neutrophils over the number of neutrophils measured). RESULTS TUNEL assay revealed statistically significant higher AR in COPD patients than controls (p=0.004). Patients with FEV(1)<50%pred had significantly higher median (IQR) AR (%) compared to patients with FEV(1)>or=50% [26.3 (16-29) vs 13.1 (8.6-21), p=0.01]. No significant association was found between the number of apoptotic cells and age, symptoms or medication used. CONCLUSION The significantly increased apoptotic rate of neutrophils that were found in COPD patients with advanced disease compared to controls might reflect either a deregulation of apoptosis of neutrophils or, a reduced clearance of apoptotic neutrophils from the airways. The pathophysiologic significance of the observed phenomenon has to be further explored.

C-reactive protein evolution in obstructive sleep apnoea patients under CPAP therapy

Eur J Clin Invest 2010; 40 (11): 968–975

Altered Surfactant Protein-A Expression in Type II Pneumocytes in COPD

BACKGROUND Pulmonary surfactant protein A (SP-A) is a lectin, with multiple functions that contribute to innate host defense and the regulation of the inflammatory process in the lung. In normal conditions, SP-A seems to protect against the effects of smoking. However, studies in smokers with or without COPD are limited. METHODS Western blots on lung tissue specimens from 60 male subjects (32 patients with COPD, 18 smokers without COPD, and 10 control nonsmokers) for SP-A and the housekeeping protein actin were carried out. Additionally, the SP-A expression pattern was evaluated by immunohistochemistry in formalin-fixed, paraffin-embedded lung tissue sections from the same subjects. RESULTS Western blots revealed significantly higher SP-A levels in control nonsmokers (4.8 +/- 0.05) when compared with patients with COPD (0.6 +/- 0.7) and smokers without COPD (2.4 +/- 0.9), (P < .05). However, differences that were not statistically significant were observed in SP-A levels among the patients with COPD and the smokers without COPD (P = .12). The immunohistochemical examinations showed an increase in the overall number of type II pneumocytes per high-power field in patients with COPD, but a decreased ratio of SP-A positive type II pneumocytes to total type II pneumocytes, compared with smokers without COPD (P = .001). This ratio was also correlated with FEV(1) (percent predicted [% pred]), (r = 0.490, P = .001). The overall number of alveolar macrophages per high-power field was significantly higher in patients with COPD compared with smokers without COPD (P = .001). The ratio of SP-A positive alveolar macrophages was increased in patients with COPD when compared with smokers without COPD (P = .002), while this was correlated with airway obstruction (FEV(1), % pred) (r = 0.281, P = .04). CONCLUSIONS Our results indicate that altered SP-A expression could be another link to COPD pathogenesis and highlights the need for further studies on surfactant markers in COPD.

Microsatellite DNA instability and loss of heterozygosity in bronchial asthma.

Genetic alterations, such as loss of heterozygosity (LOH) or microsatellite instability (MI), have been reported in both malignant and benign disorders. In order to identify loci of deoxyribonucleic acid (DNA) mutation in asthma, MI and LOH were studied in sputum cells. DNA was extracted from cells in the sputum and blood cells of 22 patients with moderate asthma. Cells were analysed for MI and LOH using 18 polymorphic markers on chromosome 5q, 6p, 11q, 14q. Microsatellite analysis was also performed in six healthy subjects. None of the healthy individuals exhibited any genetic alteration. Genetic alterations were found in 16 of 22 asthmatic patients (73%). In total, 12 (54.5%) patients exhibited LOH only, one (4.5%) MI only, while three showed both MI and LOH. The highest incidence of LOH and MI was found on chromosome 14q. Mean immunoglobulin E and blood eosinophil levels were significantly higher in asthmatics with three or more genetic alterations. A high incidence of genetic alterations in the deoxyribonucleic acid of the sputum cells was found in asthmatic patients. Further studies are needed to identify the role of loss of heterozygosity and microsatellite instability in the investigation of genetic susceptibility of asthma and thus, in its pathogenesis.

Microsatellite DNA instability and COPD exacerbations

Increased frequency of microsatellite DNA instability (MSI) has been detected in the sputum of chronic obstructive pulmonary disease (COPD) patients. The aim of the present study was to investigate the relationship between MSI in sputum cells and exacerbation frequency, which is an important parameter in the clinical course of the disease. Induced sputum samples and peripheral blood obtained from 36 patients with COPD at stable state were analysed. The control group consisted of 30 nonsmoking healthy subjects. DNA was extracted and analysed for MSI using the following microsatellite markers: RH70958, D5S207, D6S2223, D6S344, D6S263, G29802, D13S71, D14S588, D14S292 and D17S250. Following MSI analysis, exacerbations were recorded for 3 yrs in total. No MSI was detected in healthy nonsmokers. A total of 18 (50%) out of 36 patients exhibited MSI in their sputum cells. Patients who exhibited MSI showed significantly increased frequency of exacerbations compared with patients that did not. In addition, a significantly increased frequency of purulent and of severe type exacerbations was found in patients exhibiting MSI. Patients positive for marker G29802, D13S71 or D14S588 presented increased exacerbation frequency. The significant association between microsatellite DNA instability and chronic obstructive pulmonary disease exacerbations indicates that somatic mutations could be involved in the pathogenesis and natural history of the disease.

Induced Sputum versus Bronchoalveolar Lavage Fluid in the Evaluation of Patients with Idiopathic Pulmonary Fibrosis

Background: Induced sputum (IS) has been proposed as a useful noninvasive method for the assessment of airway diseases. Bronchoalveolar lavage fluid (BALF), an important tool for evaluating interstitial lung diseases, has limited utility due to its invasiveness and the difficulties of performing it in severely ill patients, while it is impractical for follow-up evaluation. Objectives: The aim of this study was to investigate the differences and the possible correlation of cell differential and lymphocyte subpopulations between BALF and IS samples in patients with idiopathic pulmonary fibrosis (IPF). Methods: We studied prospectively 20 patients (18 male, 2 female) of median age 67 years (range 40–75) with IPF and 10 normal subjects (5 female, 5 male) of median age 59 years (range 36–70). IS was performed with hypertonic saline solution using an ultrasonic nebulizer (Ultraneb 2000). BALF was performed by a conventional procedure using fiberoptic bronchoscopy within 3 days from IS. May-Grünewald-Giemsa-stained preps were differentially counted and T-lymphocyte subsets were analyzed by a flow-activated cell sorter. Results: The percentage of macrophages was significantly lower in IS than in BALF (p < 0.0001), while the neutrophils were lower in BALF (p < 0.0001). A significant correlation was found between BALF and IS eosinophil counts (r = 0.54, p = 0.01) and CD4+/CD8+ ratio (r = 0.74, p < 0.0001). Conclusion: Our data suggest that different information is obtained by IS and BALF and thus, the two methods are complementary in IPF.