Erik-Jan Oudijk

Systemic inflammation in chronic obstructive pulmonary disease.

Chronic obstructive pulmonary disease (COPD) is characterised by a chronic inflammation in the pulmonary tissue. The disease is associated with a switch from a selflimiting inflammatory response, mainly initiated by smoke inhalation, to a chronic persistent inflammatory response after prolonged interaction with cigarette smoke. The extent of the inflammatory reaction is correlated with the severity of the disease. Chronic inflammation in the pulmonary tissue is also associated with systemic effects. These effects range from cytokineinduced priming of peripheral leukocytes, to muscle wasting induced by cytokines such as tumour necrosis factor‐α. Despite a general consensus that chronic inflammation is a characteristic phenomenon of the disease, surprisingly little is known regarding the underlying pathogenetic mechanisms. A clear communication is present between the disease mechanisms in the pulmonary compartment and peripheral tissues, leading to the concept of COPD as a systemic inflammatory disease. This communication can be mediated by: 1) leakage of reactive oxygen species and stressinduced cytokines directly into the peripheral blood, 2) (pre)activation of peripheral blood leukocytes that can result in aberrant homing and activation of inflammatory cells in distant tissues, and 3) the liberation of proinflammatory mediators by leukocytes and/or stromal cells present in the pulmonary tissues during progression of the disease. The current authors hypothesise that the occurrence of a chronic inflammatory response after prolonged interaction of the pulmonary tissue with cigarette smoke causes aberrant homing of leukocytes to the tissue and delayed apoptosis. This leads to the autonomous characteristic of the inflammatory response in patients with chronic obstructive pulmonary disease.

Systemic inflammation in COPD visualised by gene profiling in peripheral blood neutrophils

Background: The inflammatory process in chronic obstructive pulmonary disease (COPD) is characterised by the presence of neutrophils in the lung that are able to synthesise de novo several inflammatory mediators. The local chronic persistent inflammatory response is accompanied by systemic effects such as cytokine induced priming of peripheral leucocytes and muscle wasting. The preactivation or priming of peripheral blood neutrophils was used to gain more insight into the mechanisms of this systemic inflammatory response. Methods: Gene arrays were performed on peripheral blood neutrophils obtained from healthy donors after stimulation in vitro with tumour necrosis factor (TNF)-α, granulocyte-macrophage colony stimulating factor (GM-CSF), or both. The expression of many inflammatory genes was regulated in these cells following stimulation. The expression of inflammatory genes in peripheral blood neutrophils in healthy subjects and those with COPD was measured by real time RT-PCR after stimulation with TNFα, GM-CSF, interleukin (IL)-8, fMLP, TNFα + GM-CSF, and lipopolysaccharide (LPS). Results: The genes regulated in the gene array with TNFα/GM-CSF stimulated neutrophils included cytokines (such as IL-1β), chemokines (such as IL-8), and adhesion molecules (such as ICAM-1). Disease severity as measured by forced expiratory volume in 1 second (FEV1) in COPD patients correlated with expression of several of these genes including IL-1β (r = −0.540; p = 0.008), MIP-1β (r = −0.583; p = 0.003), CD83 (r = −0.514; p = 0.012), IL-1 receptor 2 (r = −0.546; p = 0.007), and IL-1 receptor antagonist (r = −0.612; p = 0.002). Conclusions: These data are consistent with the hypothesis that progression of COPD is associated with the activation of neutrophils in the systemic compartment. De novo expression of inflammatory mediators by peripheral blood neutrophils suggests a pro-inflammatory role for these cells in the pathogenesis of COPD.

Aberrant regulation of polymorphonuclear phagocyte responsiveness in multitrauma patients.

ABSTRACT A systemic inflammatory response often follows severe trauma. Priming (preactivation) of polymorphonuclear phagocytes (PMNs) is an essential first step in the processes that lead to damage caused by the systemic activation of innate immune response. Until recently, priming could only accurately be measured by functional assays, which require isolation of cells, thereby potentially inducing artificial activation. The aim of this study was to identify primed PMNs in response to trauma by using a whole blood analysis with a broad detection range. Twenty-two trauma patients were analyzed for PMN priming with novel developed antibodies recognizing priming epitopes by flow cytometric analysis. Expression of priming epitopes on PMNs was analyzed with respect to time, injury, and disease severity. Expression of priming epitopes in the circulation was compared with expression profiles of PMNs obtained from lung fluid. Fourteen healthy volunteers served as controls. Expression of priming epitopes on peripheral blood PMNs of injured patients was similar, as found in healthy controls, whereas highly primed cells were found in the lung fluid of injured patients (increase of >50 times as compared with peripheral blood cells). In fact, the responsiveness of PMNs toward the bacteria-derived stimulus N-formyl-methionyl-leucyl-phenylalanine was markedly decreased in trauma patients. Lack of expression of priming epitopes and the unresponsiveness to N-formyl-methionyl-leucyl-phenylalanine demonstrates the presence of partially refractory cells in the circulation of trauma patients. An increased expression of epitopes found on pulmonary PMNs suggests that optimal (pre)activation of these cells only occurs in the tissues.

Steroids induce a disequilibrium of secreted interleukin-1 receptor antagonist and interleukin-1β synthesis by human neutrophils

Chronic obstructive pulmonary disease (COPD) is characterised by neutrophilic inflammation in the airways and these neutrophils contribute to the production of inflammatory mediators. Dampening the production of proinflammatory mediators might be an important strategy to treat COPD and glucocorticosteroids are known to do so via inhibition of nuclear factor-&kgr;B. However, this pathway is important for the control of pro- and anti-inflammatory genes. We studied the effects of dexamethasone on production and secretion of pro-inflammatory interleukin (IL)-1&bgr; and anti-inflammatory secreted IL-1 receptor antagonist (sIL-1Ra) by human neutrophils activated with tumor necrosis factor (TNF)-&agr;. In vitro, TNF-&agr;-stimulated neutrophils produced significant amounts of IL-1&bgr; and sIL-1Ra; this production was inhibited by dexamethasone. However, synthesis and secretion of sIL-1Ra was inhibited at lower concentrations dexamethasone compared to IL-1&bgr;, which changed the IL-1&bgr;:sIL-1Ra ratio significantly. This altered ratio resulted in a more pro-inflammatory condition, as visualised by increased intercellular adhesion molecule-1 expression on human endothelial cells. In vivo, moderate-to-severe COPD patients using inhaled glucocorticosteroids have decreased plasma sIL-Ra levels compared with mild-to-moderate patients not on glucocorticosteroid treatment. In conclusion, dexamethasone induces a pro-inflammatory shift in the IL-1&bgr;:sIL-1Ra cytokine balance in neutrophils in vitro, which might contribute to a lack of endogenous anti-inflammatory signals to dampen inflammation in vivo.

A Promoter Polymorphism in the CD59 Complement Regulatory Protein Gene in Donor Lungs Correlates With a Higher Risk for Chronic Rejection After Lung Transplantation

Complement activation leads primarily to membrane attack complex formation and subsequent target cell lysis. Protection against self‐damage is regulated by complement regulatory proteins, including CD46, CD55, and CD59. Within their promoter regions, single‐nucleotide polymorphisms (SNPs) are present that could influence transcription. We analyzed these SNPs and investigated their influence on protein expression levels. A single SNP configuration in the promoter region of CD59 was found correlating with lower CD59 expression on lung endothelial cells (p = 0.016) and monocytes (p = 0.013). Lung endothelial cells with this SNP configuration secreted more profibrotic cytokine IL‐6 (p = 0.047) and fibroblast growth factor β (p = 0.036) on exposure to sublytic complement activation than cells with the opposing configuration, whereas monocytes were more susceptible to antibody‐mediated complement lysis (p < 0.0001). Analysis of 137 lung transplant donors indicated that this CD59 SNP configuration correlates with impaired long‐term survival (p = 0.094) and a significantly higher incidence of bronchiolitis obliterans syndrome (p = 0.046) in the recipient. These findings support a role for complement in the pathogenesis of this posttransplant complication and are the first to show a deleterious association of a donor CD59 promoter polymorphism in lung transplantation.

Functional antagonism by GM-CSF on TNF-α-induced CD83 expression in human neutrophils

TNFalpha-induced expression of CD83 in leukocytes is mediated by NF-kappab. The aim of our present study was to investigate the underlying mechanism of a unique functional antagonism between GM-CSF and TNFalpha-induced up-regulation of CD83 in human neutrophils. CD83 was down-regulated by co-stimulation of neutrophils with TNFalpha and GM-CSF compared to TNFalpha alone both at the level of mRNA and protein. In marked contrast, the expression of IL-1RA was up-regulated under the same conditions. The down-regulation of CD83 was not mediated by modulation of the NF-kappab signaling pathway. Neither was it mediated by a decrease in mRNA stability of CD83. NF-kappab was modulated under these conditions as both the expression of the target gene IL-1RA as well as the phosphorylation of IkBalpha were up-regulated. Our results show that co-stimulation with pro-inflammatory cytokines such as TNFalpha and GM-CSF can have differential effects on inflammatory pathways initiated in the same target cell. GM-CSF can both synergize with TNFalpha in the case of expression of IL1-RA and antagonize in the case of CD83. Therefore, expression of CD83 as read out for activation of neutrophils in patients with inflammatory diseases is complicated by the presence of cross-modulating cytokines such as GM-CSF.

An association of particulate air pollution and traffic exposure with mortality after lung transplantation in Europe

Air pollution from road traffic is a serious health risk, especially for susceptible individuals. Single-centre studies showed an association with chronic lung allograft dysfunction (CLAD) and survival after lung transplantation, but there are no large studies. 13 lung transplant centres in 10 European countries created a cohort of 5707 patients. For each patient, we quantified residential particulate matter with aerodynamic diameter ≤10 µm (PM10) by land use regression models, and the traffic exposure by quantifying total road length within buffer zones around the home addresses of patients and distance to a major road or freeway. After correction for macrolide use, we found associations between air pollution variables and CLAD/mortality. Given the important interaction with macrolides, we stratified according to macrolide use. No associations were observed in 2151 patients taking macrolides. However, in 3556 patients not taking macrolides, mortality was associated with PM10 (hazard ratio 1.081, 95% CI 1.000–1.167); similarly, CLAD and mortality were associated with road lengths in buffers of 200–1000 and 100–500 m, respectively (hazard ratio 1.085– 1.130). Sensitivity analyses for various possible confounders confirmed the robustness of these associations. Long-term residential air pollution and traffic exposure were associated with CLAD and survival after lung transplantation, but only in patients not taking macrolides. Long-term residential air pollution/traffic exposure associated with CLAD and survival after lung transplantation http://ow.ly/Izxj304uA5k