Project description:A major population of placenta macrophages represented throughout the pregnancy consists of CD14+ macrophages, but their characteristics remain badly understood. Here we purified from placentas at term CD14+ macrophages using positive selection. The phenotyping of CD14+ macrophages performed using flow cytometry revealed that placenta CD14+ macrophages expressed a series of markers distinct of those of circulating monocytes monocyte-derived macrophages. Placenta CD14+ macrophages spontaneously matured in multinucleated giant cells (MGCs) as demonstrated by size, number of nuclei display and specific cytoskeleton organization. Placenta CD14+ macrophages and MGCs were phagocytic cells but the potential of MGCs to mount an inflammatory response was lower than that of their precursors. Placenta CD14+ macrophages and MGCs stimulated with interferon and interleukin-4 were not polarized into typical M1 or M2 profiles. Placenta macrophages exhibited specific activation transcriptional programs. Indeed, principal component analysis and hierarchical clustering show that placental macrophages formed a distinct group from circulating monocytes and monocyte-derived macrophages. Among placenta macrophages, it was also possible to distinguish CD14+ macrophages and MGCs. In addition, networks based on gene interactions were clearly different in CD14+ macrophages and MGCs. Finally, the microenvironment of placenta CD14+ macrophages governs their differentiation into MGCs because CD14+ macrophages incubated with trophoblasts exhibited exarcerbated characteristics of MGCs and because the co-incubation of circulating monocytes from working women with trophoblast supernatants resulted into the formation of MGCs whereas monocytes from non-pregnant women incubated with trophoblast supernatants did not differentiate into MGCs. Taken together, these results clearly demonstrated specific feaures of placenta CD14+ macrophages. Three replicates of each of the following: 1. Placental macrophages just after isolation (CD14+ macrophages) 2. Placental macrophages after 9 days in culture (MGCs) 3. CD14+ cells isolated from PBMC which are extracted from the whole human blood of healthy donors (Monocytes) 4. Macrophages derived from monocytes (MDMs)

Project description:The role of placental macrophages is largely ignored in the success of pregnancy. We found that CD14+ macrophages purified from at-term placentas spontaneously matured into multinucleated giant cells (MGCs). MGCs lost the expression of CD14 and co-inhibitory molecules, such as Programmed cell Death-Ligands 1 and 2. Although MGCs kept phagocytosis and property to produce ROS, their inflammatory potential measured by TNF/IL-10 imbalance and activation of p38 MAPK and NF-M-NM-:B was blunted without being associated with M2 phenotype. The investigation of gene expression revealed the enrichment with categories related to inflammation, apoptosis and canonical functions of macrophages in MGCs. Whereas most of the genes associated with inflammation and immune responses were down-modulated, those such as VEGFC or associated with matrix remodeling were specifically up-regulated in MGCs. Importantly, we found that patients with preeclampsia or chorioamnionitis, two inflammatory and infectious pathologies, respectively, that affect placentas, were unable to generate MGCs. Taken together, these results suggest that MGCs represent a new way to regulate the inflammatory and cytocidal activity of placental macrophages in a context that imposes contradictory constraints, such as semi-allograft acceptance and defense against aggression. The dysregulation of MGC formation may be associated with placental inflammatory and infectious pathologies. Placental macrophages CD14+ were cultured for 9 days to form multinucleated giant cells (MGC). The transcriptome of MGCs was compared to the transcriptome of placental macrophages (CD14+)

Project description:Excessive alcohol consumption adversely affects the immune system and triggers the activation of peripheral blood (PB) monocytes and tissue macrophages, contributing to alcohol- related organ damage. This study aimed to analyze the M1/M2 and inflammatory phenotypes of circulating monocytes and macrophage-derived monocytes (MDMs). This single-center cross- sectional study included 20 excessive alcohol drinkers (EADs) and 22 healthy controls. PB samples were collected under fasting conditions for isolation of CD14+ monocytes and short-term culture without stimulation, LPS/IFNγ, or IL4/IL13. These conditions were also used to polarize monocyte-derived macrophages (MDMs) into M0, M1, or M2 phenotypes. Cytokine production was assessed in the blood samples and supernatants. M1/M2 related markers in PB monocytes and MDMs were analyzed using mRNA expression and surface marker analyses. In addition, the miRNA profile was analyzed in CD14+ monocytes. PB samples from EADs exhibited increased levels of pro-inflammatory cytokines.

Project description:Monocytes/macrophages have the ability to fuse in multinucleated giant cells (MGCs). Except for osteoclasts that resorb bones on large surfaces, the function of other macrophage-derived MGCs, which appear under pathological situations associated with granulomatous inflammation such as tuberculosis, is not understood. Here we deciphered functions and gene expression profiles of MGCs obtained after stimulation of human monocytes with IFN-gM-BM- and concanavalin A. First, we show that the competence of MGCs in phagocytosis and O2- production was similar to those of monocytes-derived macrophages (MDMs) and that MGCs exhibited a M1 polarization. Second, we analyzed the transcriptional profile of MGCs using gene categories and the building of gene networks. The signature of MGCs was markedly distinct from that of resting or stimulated MDMs. It consisted of the up-regulation of genes involved in adhesion and cytoskeleton organization while genes associated with immune response were down-regulated. Hence, MGC formation was associated with a profound and original modulation of gene expression repertoire suggesting that macrophage immune were not prominent in MGC. This expression gene repertoire may be instrumental to understand the specific function of this giant macrophages in human pathologies 9 samples of monocytes-derived macrophages and 3 samples of mulitnucleated giant cells. 3 samples of MDM treated with concanavalin A, 3 samples of MDM treated with IFN-g, and 3 control MDM.

Project description:The role of placental macrophages is largely ignored in the success of pregnancy. We found that CD14+ macrophages purified from at-term placentas spontaneously matured into multinucleated giant cells (MGCs). MGCs lost the expression of CD14 and co-inhibitory molecules, such as Programmed cell Death-Ligands 1 and 2. Although MGCs kept phagocytosis and property to produce ROS, their inflammatory potential measured by TNF/IL-10 imbalance and activation of p38 MAPK and NF-κB was blunted without being associated with M2 phenotype. The investigation of gene expression revealed the enrichment with categories related to inflammation, apoptosis and canonical functions of macrophages in MGCs. Whereas most of the genes associated with inflammation and immune responses were down-modulated, those such as VEGFC or associated with matrix remodeling were specifically up-regulated in MGCs. Importantly, we found that patients with preeclampsia or chorioamnionitis, two inflammatory and infectious pathologies, respectively, that affect placentas, were unable to generate MGCs. Taken together, these results suggest that MGCs represent a new way to regulate the inflammatory and cytocidal activity of placental macrophages in a context that imposes contradictory constraints, such as semi-allograft acceptance and defense against aggression. The dysregulation of MGC formation may be associated with placental inflammatory and infectious pathologies.

Project description:Monocytes/macrophages have the ability to fuse in multinucleated giant cells (MGCs). Except for osteoclasts that resorb bones on large surfaces, the function of other macrophage-derived MGCs, which appear under pathological situations associated with granulomatous inflammation such as tuberculosis, is not understood. Here we deciphered functions and gene expression profiles of MGCs obtained after stimulation of human monocytes with IFN-g and concanavalin A. First, we show that the competence of MGCs in phagocytosis and O2- production was similar to those of monocytes-derived macrophages (MDMs) and that MGCs exhibited a M1 polarization. Second, we analyzed the transcriptional profile of MGCs using gene categories and the building of gene networks. The signature of MGCs was markedly distinct from that of resting or stimulated MDMs. It consisted of the up-regulation of genes involved in adhesion and cytoskeleton organization while genes associated with immune response were down-regulated. Hence, MGC formation was associated with a profound and original modulation of gene expression repertoire suggesting that macrophage immune were not prominent in MGC. This expression gene repertoire may be instrumental to understand the specific function of this giant macrophages in human pathologies

Project description:Identification of genes differentially expressed between human CD14+CD16- and CD16+ monocyte-derived macrophages generated in the presence of either GM-CSF (termed GM14 and GM16, respectively) or M-CSF (termed M14 and M16, respectively) Human peripheral CD14+CD16- and CD16+ blood monocytes from three independent healthy donors (D1, D2 and D3) were isolated by positive selection from peripheral blood mononuclear cells (PBMC) using magnetic separation systems (MACS, Miltenyi Biotec). Briefly, PBMC were first incubated with MACS anti-CD56 antibody conjugated to paramagnetic microbeads in order to eliminate the NK (CD16+) cell fraction. NK-depleted PBMC were further incubated with MACS anti-CD16 antibody to isolate CD16+ monocytes. CD56-CD16- PBMC were finally incubated with MACS anti-CD14 antibody to obtain the CD14+CD16- monocyte fraction. Monocytes were cultured for 7 days in medium containing either GM-CSF or M-CSF. Total RNA from each condition was extracted using the RNeasy kit (Qiagen) and hybridized to an Agilent Human Whole Genome (4x44) Oligo Microarray. All experimental procedures were performed following manufacturer instructions.

Project description:Clever-1 is a scavenger receptor expressed on a subset of immunosuppressive macrophages and monocytes. We analyzed the gene expression profiles of CD14+ monocytes isolated from cancer patients treated with a humanized anti-Clever-1 antibody (FP-1305) in a phase I/II clinical trial (MATINS; NCT03733990) to understand how anti-Clever-1 treatment changes the phenotype and activation of circulating monocytes.

Project description:Monocytes and T-cells play an important role in the development of atherosclerotic coronary artery disease (CAD). Differences in transcriptional activity of these cells might reflect the individual's atherosclerotic burden. Transcriptome analysis of circulating mononuclear cells from carefully matched atherosclerotic and control patients will potentially provide insights into the pathophysiology of atherosclerosis and supply biomarkers for diagnostic purposes. From patients undergoing coronary angiography because of anginal symptoms, we carefully matched 18 patients with severe triple-vessel CAD to 13 control patients without signs of CAD on angiography. All patients were on statin and aspirin treatment. RNA from circulating CD4+ T-cells, CD14+ monocytes, lipopolysaccharide-stimulated monocytes, macrophages and CD34+ progenitor cells was subjected to genome-wide expression analysis. Only CD14+ monocytes demonstrated that a small number of genes involved in activation was overexpressed in control patients, which was verified by real-time polymerase-chain reaction. In this pilot study, cautious matching of patients with severe atherosclerotic CAD with control patients without angiographic signs of coronary atherosclerosis did not reveal differences in transcriptional activity in four out of five different mononuclear cell types. In resting monocytes from patients without overt CAD some inflammatory genes were overexpressed as compared to patients with severe CAD. Large inter-individual variability prevented the use of single differentially expressed genes as biomarkers. Keywords: disease-state analysis In total 153 arrays were analyzed with 6 technical replicates (147 biological samples). CD34+ stem cells, CD4+ T-cells, resting CD14+ monocytes, stimulated monocytes and macrophages were analyzed, all from patient with severe coronary atherosclerosis or controls that had no coronary atherosclerosis as determined angiographically, and which were carefully matched for age and gender.

Project description:Psoriasis patients exhibit an increased risk of death by cardiovascular disease (CVD) and have elevated levels of circulating intermediate (CD14++CD16+) monocytes. This elevation could represent evidence of monocyte dysfunction in psoriasis patients at risk of CVD, as increases in circulating CD14++CD16+ monocytes are predictive of myocardial infarction and death. An elevation in the CD14++CD16+ cell population has been previously reported in patients with psoriatic disease, which has been confirmed in the cohort of our human psoriasis patients. CD16 expression was induced in CD14++CD16neg classical monocytes following plastic adhesion, which also elicited enhanced β2 but not β1 integrin surface expression, suggesting increased adhesive capacity. Indeed, we found that psoriasis patients have increased monocyte aggregation among circulating PBMCs which is recapitulated in the KC-Tie2 murine model of psoriasis. Visualization of human monocyte aggregates using imaging cytometry revealed that classical CD14++CD16neg monocytes are the predominant cell type participating in these aggregate pairs. Many of these pairs also included CD16+ monocytes, which could account for apparent elevations of intermediate monocytes. Additionally, intermediate monocytes and monocyte aggregates were the predominant cell type to adhere to TNF-α and IL-17A-stimulated dermal endothelium. Ingenuity Pathway Analysis (IPA) demonstrated that monocyte aggregates have a distinct transcriptional profile from singlet monocytes and monocytes following plastic adhesion, suggesting that circulating monocyte responses to aggregation are not fully accounted for by homotypic adhesion, and that further factors influence their functionality. qRT-PCR Gene Expression Profiling - 30 Samples Analyzed, 10 biological replicates, 10 Control Samples, 20 Test Samples