Project description:In order to study the gene expression profiles of monocyte and macrophages, we collected three type of cells and performed pair-wised comparison. It includes human peripheral blood monocyte (MONO), human peripheral blood monocyte derived macrophages treated with M-CSF (MACRO)and primary alveolar macrophages (BAL). All the experiments are performed comparing two of the three cell types from the same person (total 4 persons). Totally we got three set of microarray data, MONO/MACRO, MONO/BAL and MACRO/BAL with 4 biological replicates.

Project description:Pneumococcal pneumonia is a leading cause of death and a major source of human morbidity. The initial immune response plays a central role in determining the course and outcome of pneumococcal disease. We combine bacterial titer measurements from mice infected with Streptococcus pneumoniae with mathematical modeling to investigate the coordination of immune responses and the effects of initial inoculum on outcome. To evaluate the contributions of individual components, we systematically build a mathematical model from three subsystems that describe the succession of defensive cells in the lung: resident alveolar macrophages, neutrophils and monocyte-derived macrophages. The alveolar macrophage response, which can be modeled by a single differential equation, can by itself rapidly clear small initial numbers of pneumococci. Extending the model to include the neutrophil response required additional equations for recruitment cytokines and host cell status and damage. With these dynamics, two outcomes can be predicted: bacterial clearance or sustained bacterial growth. Finally, a model including monocyte-derived macrophage recruitment by neutrophils suggests that sustained bacterial growth is possible even in their presence. Our model quantifies the contributions of cytotoxicity and immune-mediated damage in pneumococcal pathogenesis.

Project description:In order to study the gene expression profiles of monocyte and macrophages, we collected three type of cells and performed pair-wised comparison. It includes human peripheral blood monocyte (MONO), human peripheral blood monocyte derived macrophages treated with M-CSF (MACRO)and primary alveolar macrophages (BAL). All the experiments are performed comparing two of the three cell types from the same person (total 4 persons). Totally we got three set of microarray data, MONO/MACRO, MONO/BAL and MACRO/BAL with 4 biological replicates. Keywords: cell_type_comparison_design

Project description:This experiment is an additional experiment to GSE6688. Mouse macrophages (ANA-1 cells) were infected in vitro with C. pneumoniae with a M.O.I. of 10. Twenty two genes were significantly upregulated. Examples of the most upregulated genes in mouse macrophages after C. pneumoniae infection are serum amyloid A3 (saa3), a protein that is mainly produced by activated macrophages during tissue injury or inflammation, MIP-2 (cxcl2) and irg1. Expression levels of all genes induced by C. pneumoniae in macrophages in vitro correlated with the results obtained from infected lungs from wild type mice (GSE6688), suggesting that this cell type participates in host defense in vivo against C. pneumoniae. Keywords: Chlamydia pneumoniae, ANA-1 macrophages, in vitro, infection

Project description:Hypoxemia is a defining feature of acute respiratory distress syndrome (ARDS), an often-fatal complication of pulmonary or systemic inflammation, yet the resulting tissue hypoxia, and its impact on immune responses, is often neglected. Here we showed that ARDS patients were hypoxaemic and monocytopenic within the first 48 hours of ventilation. Monocytopenia was also observed in mouse models of acute lung injury, in which tissue hypoxia drove the suppression of type I interferon signalling in the bone marrow. This impaired monopoiesis, resulted in reduced accumulation of monocyte-derived macrophages and enhanced neutrophil-mediated inflammation in the lung. Administration of CSF1 in mice with hypoxic lung injury rescued the monocytopenia, altered the nature of circulating monocytes, increased monocyte-derived macrophages in the lung and limited injury. Thus, tissue hypoxia altered the dynamics of the immune response to the detriment of the host and interventions to address the aberrant response offer new therapeutic strategies for ARDS.

Project description:This experiment is an additional experiment to GSE6688. Mouse macrophages (ANA-1 cells) were infected in vitro with C. pneumoniae with a M.O.I. of 10. Twenty two genes were significantly upregulated. Examples of the most upregulated genes in mouse macrophages after C. pneumoniae infection are serum amyloid A3 (saa3), a protein that is mainly produced by activated macrophages during tissue injury or inflammation, MIP-2 (cxcl2) and irg1. Expression levels of all genes induced by C. pneumoniae in macrophages in vitro correlated with the results obtained from infected lungs from wild type mice (GSE6688), suggesting that this cell type participates in host defense in vivo against C. pneumoniae. Experiment Overall Design: ANA-1 macrophages were infected with Chlamydia pneumoniae or left untreated. After 8h total RNA was extracted. Two biological replicates were performed resulting in 4 arrays in total

Project description:In a murine lung infection model with Streptococcus pneumoniae, we found significant transcriptomic and proteomic adaptations by resident alveolar macrophages.

Project description:Bacterial lung infections are associated with strong infiltration of CD11b+ myeloid cells, which limit life-threatening disease, but also severely damage lung tissue. In a murine lung infection model with Streptococcus pneumoniae, we found intrinsic upregulation of CD11b on resident alveolar macrophages. Such CD11b expression was associated with transcriptomic and proteomic adaptations by alveolar macrophages, leading to the identification of specific molecules and pathways that depended on CD11b. In the absence of CD11b, the antimicrobial defense of alveolar macrophages was strongly reduced, and the production of neutrophil-recruiting chemokines was more pronounced. Moreover, CD11b expression limited the infection and prevented excessive alveolar damage. In conclusion, our study provides detailed molecular insights into the alveolar macrophage-specific immune response to Streptococcus pneumoniae lung infection and reveals profound CD11b-dependent alterations that are critical for effective antimicrobial immunity, neutrophil recruitment, and prevention of alveolar damage.

Project description:Background. Animal models of elastase intratracheal instillation have shown that elastase, unopposed by α-1 antitrypsin (AAT), can induce alveolar hemorrhage with ensuing macrophage inflammation and lung damage. Aim. To identify markers of alveolar hemorrhage and damage using bronchoalveolar lavage (BAL) samples and lung tissue explants from AAT deficient (AATD) subjects. Methods. BAL samples (17 patients, 15 controls) were evaluated for free heme and iron concentrations. Alveolar macrophage (AlvMac) activation patterns were assessed by RNA sequencing and validated in vitro using heme-stimulated monocyte-derived macrophages (MDM). Lung explants (7 patients, 4 controls) were evaluated for iron sequestration patterns, by Prussian blue stain and ferritin immunohistochemistry, and for ferritin iron imaging and elemental analysis by electron microscopy (EM). Tissue oxidative damage was assessed by 8-OHdG immunohistochemistry. Results. BAL showed significantly elevated free heme and iron concentrations at lobar level. BAL macrophage RNA sequencing showed innate proinflammatory activation, consistent with free heme activation. AATD tissue alveolar and interstitial macrophages showed elevated iron and ferritin accumulation in large lysosomes packed with iron oxide cores with degraded ferritin protein cages. AATD explants showed massive oxidative DNA damage in lung epithelial cells and macrophages. Conclusions. Identification of BAL and tissue markers of alveolar hemorrhage, together with the molecular and cellular evidence of macrophage innate pro-inflammatory activation and oxidative damage, consistent with free heme stimulation, provides ex vivo evidence for the pathogenetic role of elastase-induced alveolar hemorrhage AATD emphysema as shown in animal studies.

Project description:To understand the bioenergetics in cadmium-exposed macrophages, RNA sequencing (RNA-seq) was performed in lung macrophages isolated from vehicle- and cadmium-exposed mice.