Cell Recovery in Bronchoalveolar Lavage Fluid in Smokers Is Dependent on Cumulative Smoking History

Background: Smoking is a risk factor for various lung diseases in which BAL may be used as a part of a clinical investigation. Interpretation of BAL fluid cellularity is however difficult due to high variability, in particular among smokers. In this study we aimed to evaluate the effect of smoking on BAL cellular components in asymptomatic smokers. The effects of smoking cessation, age and gender were also investigated in groups of smokers and exsmokers. Methods: We performed a retrospective review of BAL findings, to our knowledge the largest single center investigation, in our department from 1999 to 2009. One hundred thirty two current smokers (48 males and 84 females) and 44 ex-smokers (16 males and 28 females) were included. A group of 295 (132 males and 163 females) never-smokers served as reference. Result: The median [5–95 pctl] total number of cells and cell concentration in current smokers were 63.4 [28.6–132.1]610 6 and 382.1 [189.7–864.3]610 6 /L respectively and correlated positively to the cumulative smoking history. Macrophages were the predominant cell type (96.7 % [90.4–99.0]) followed by lymphocytes (2 % [0.8–7.7]) and neutrophils (0.6 % [0–2.9]). The concentration of all inflammatory cells was increased in smokers compared to never smokers and ex-smokers. BAL fluid recovery was negatively correlated with age (p,0.001). Smoking men had a lower BAL fluid recovery than smoking women. Conclusion: Smoking has a profound effect on BAL fluid cellularity, which is dependent on smoking history. Our results performed on a large group of current smokers and ex-smokers in a well standardized way, can contribute to bette

Modified Vaccinia Virus Ankara Preferentially Targets Antigen Presenting Cells In Vitro, Ex Vivo and In Vivo

Modified Vaccinia virus Ankara (MVA) is a promising vaccine vector with an excellent safety profile. However, despite extensive pre-clinical and clinical testing, surprisingly little is known about the cellular tropism of MVA, especially in relevant animal species. Here, we performed in vitro, ex vivo and in vivo experiments with recombinant MVA expressing green fluorescent protein (rMVA-GFP). In both human peripheral blood mononuclear cells and mouse lung explants, rMVA-GFP predominantly infected antigen presenting cells. Subsequent in vivo experiments performed in mice, ferrets and non-human primates indicated that preferential targeting of dendritic cells and alveolar macrophages was observed after respiratory administration, although subtle differences were observed between the respective animal species. Following intramuscular injection, rMVA-GFP was detected in interdigitating cells between myocytes, but also in myocytes themselves. These data are important in advancing our understanding of the basis for the immunogenicity of MVA-based vaccines and aid rational vaccine design and delivery strategies

Highly Pathogenic Avian Influenza Virus H5N1 Infects Alveolar Macrophages without Virus Production or Excessive TNF-Alpha Induction

Highly pathogenic avian influenza virus (HPAIV) of the subtype H5N1 causes severe, often fatal pneumonia in humans. The pathogenesis of HPAIV H5N1 infection is not completely understood, although the alveolar macrophage (AM) is thought to play an important role. HPAIV H5N1 infection of macrophages cultured from monocytes leads to high percentages of infection accompanied by virus production and an excessive pro-inflammatory immune response. However, macrophages cultured from monocytes are different from AM, both in phenotype and in response to seasonal influenza virus infection. Consequently, it remains unclear whether the results of studies with macrophages cultured from monocytes are valid for AM. Therefore we infected AM and for comparison macrophages cultured from monocytes with seasonal H3N2 virus, HPAIV H5N1 or pandemic H1N1 virus, and determined the percentage of cells infected, virus production and induction of TNF-alpha, a pro-inflammatory cytokine. In vitro HPAIV H5N1 infection of AM compared to that of macrophages cultured from monocytes resulted in a lower percentage of infected cells (up to 25% vs up to 84%), lower virus production and lower TNF-alpha induction. In vitro infection of AM with H3N2 or H1N1 virus resulted in even lower percentages of infected cells (up to 7%) than with HPAIV H5N1, while virus production and TNF-alpha induction were comparable. In conclusion, this study reveals that macrophages cultured from monocytes are not a good model to study the interaction between AM and these influenza virus strains. Furthermore, the interaction between HPAIV H5N1 and AM could contribute to the pathogenicity of this virus in humans, due to the relative high percentage of infected cells rather than virus production or an excessive TNF-alpha induction

Influenza Virus A Infection of Human Monocyte and Macrophage Subpopulations Reveals Increased Susceptibility Associated with Cell Differentiation

Influenza virus infection accounts for significant morbidity and mortality world-wide. Interactions of the virus with host cells, particularly those of the macrophage lineage, are thought to contribute to various pathological changes associated with poor patient outcome. Development of new strategies to treat disease therefore requires a detailed understanding of the impact of virus infection upon cellular responses. Here we report that human blood-derived monocytes could be readily infected with the H3N2 influenza virus A/Udorn/72 (Udorn), irrespective of their phenotype (CD14++/CD16−, CD14++/CD16+ or CD14dimCD16++), as determined by multi-colour flow cytometry for viral haemagglutinin (HA) expression and cell surface markers 8–16 hours post infection. Monocytes are relatively resistant to influenza-induced cell death early in infection, as approximately 20% of cells showed influenza-induced caspase-dependent apoptosis. Infection of monocytes with Udorn also induced the release of IL-6, IL-8, TNFα and IP-10, suggesting that NS1 protein of Udorn does not (effectively) inhibit this host defence response in human monocytes. Comparative analysis of human monocyte-derived macrophages (Mph) demonstrated greater susceptibility to human influenza virus than monocytes, with the majority of both pro-inflammatory Mph1 and anti-inflammatory/regulatory Mph2 cells expressing viral HA after infection with Udorn. Influenza infection of macrophages also induced cytokine and chemokine production. However, both Mph1 and Mph2 phenotypes released comparable amounts of TNFα, IL-12p40 and IP-10 after infection with H3N2, in marked contrast to differential responses to LPS-stimulation. In addition, we found that influenza virus infection augmented the capacity of poorly phagocytic Mph1 cells to phagocytose apoptotic cells by a mechanism that was independent of either IL-10 or the Mer receptor tyrosine kinase/Protein S pathway. In summary, our data reveal that influenza virus infection of human macrophages causes functional alterations that may impact on the process of resolution of inflammation, with implications for viral clearance and lung pathology

Caracterização imunofenotípica das subpopulações de linfócitos do lavado broncoalveolar de pacientes com silicose Phenotypic characterization of lymphocyte subsets in bronchoalveolar lavage of patients with silicosis

A lavagem broncoalveolar é um procedimento simples e seguro, na avaliação das pneumopatias relacionadas à exposição a poeiras minerais. O objetivo do estudo foi caracterizar as subpopulações celulares no lavado broncoalveolar (LBA) de pacientes silicóticos. A lavagem broncoalveolar foi realizada em 26 trabalhadores com diferentes formas de silicose: forma simples (n = 12), complicada (n = 13) e um paciente com a forma aguda da doença. Como grupo controle, foram incluídos sete indivíduos sadios. Os pacientes com silicose apresentaram intensa pleocitose com predomínio de macrófagos alveolares e tendência à linfocitose. As subpopulações de linfócitos presentes no lavado broncoalveolar (LBA) dos indivíduos sadios apresentaram fenótipo de células maduras. A grande maioria era constituída por células CD2+TCR<FONT FACE=Symbol>ab</FONT> (87,3%) e somente 2,9% das células T apresentaram marcação CD2+TCR<FONT FACE=Symbol>gd</FONT>. A relação CD4/CD8 foi de 1,8, com poucas (16%) células T imaturas duplo-negativas CD4-CD8-. Em contraste, pacientes com silicose apresentaram redução acentuada das subpopulações dos linfócitos maduros CD2+CD4+, CD2+CD8+ e aumento marcante (47%) de células imaturas (DN) duplo-negativas (CD4-CD8-). Não foi observado aumento das células NK (CD56+). A análise do conteúdo protéico e a determinação da relação Ig/albumina permitiram caracterizar produção local de imunoglobulinas no microambiente pulmonar. Como não foi observado aumento percentual de plasmócitos e linfócitos B (CD19+) no LBA desses pacientes, é possível concluir que as células produtoras de imunoglobulinas estão possivelmente localizadas no interstício pulmonar. Estes resultados sugerem que, durante a evolução da silicose, ocorre o desenvolvimento de linfopoese extratímica e surgimento de órgão linfóide terciário, no microambiente pulmonar desses pacientes.<br>Bronchoalveolar lavage is a safe and simple technique to evaluate lung disease related to exposure to mineral dusts. The aim of this study was to characterize the lymphocyte subsets in bronchoalveolar lavage of patients with silicosis. Bronchoalveolar lavage was carried out in 26 workers with different forms of silicosis: simple form (n = 12), complicated (n = 13) and 1 patient with acute form of the disease. As a control group, 7 healthy individuals were included. Compared to the control group, silicotic patients showed intense pleocytosis constituted mainly by alveolar macrophages with slight lymphocytosis. Lymphocyte subsets present in the bronchoalveolar fluid (BAL) of normal individuals were mature lymphocytes with phenotype CD2+TCR<FONT FACE=Symbol>ab</FONT> (87.3%) and only 2.9% were CD2+TCR<FONT FACE=Symbol>gd</FONT>. CD4/CD8 ratio was 1.8 with few (16%) immature double negative T cells subsets (CD4-CD8-). In contrast, silicotic patients showed reduction of the more mature lymphocyte subset CD2+CD4+, CD2+CD8+ and a great increase (47%) of immature (CD4-CD8-) T cell subsets. No increase in the NK (CD56+) cell population was observed. Biochemical analysis of protein contents and determination of the Ig/albumin ratio characterized local immunoglobulin production within the pulmonary microenvironment. Furthermore, lack of increase of plasma cells, as well as the maintenance of the percentage of B lymphocyte population (CD19+) in the BAL of silicotic patients, favors the hypothesis that the cells responsible for Ig production are possibly located in the interstitial space. Altogether the results suggest development of lymphopoiesis and tertiary lymphoid tissue within the pulmonary microenvironment during the clinical course of silicosis