Project description:Unstimulated (M0), M1-polarized (GM-CSF, LPS, IFNγ-stimulated), and M2-polarized (M-CSF, IL-4-stimulated) canine blood-derived macrophages were generated in vitro and investigated for differences in their transcriptome to create a basis for future investigations upon the role of macrophage polarization in dogs, a species, which has emerging importance for translational research.

Project description:Monocytes mature to macrophages in the presence of the lineage determining cytokine M-CSF. They can be further polarized into M1 or M2 macrophages with distinct functional properties. We used microarrays to detail the global programme of gene expression underlying macrophage maturation and polarization and identified distinct classes of up-regulated genes during this process. Experiment Overall Design: Freshly isolated monocytes were cultured in the presence of M-CSF for 7 days, and then polarized to M1 or M2 cells. The study includes Monocytes at day 0, macrophages at day 3 and 7, M1 and m2 polarized macrophages.

Project description:To understand the molecular signature of the IL-10/IL-18 polarized macrophages, we performed transcriptome analysis for mouse BMDMs polarized with PBS (Naïve), IFN-γ (classic M1 stimulator, M1, 20ng/ml), IL-4 (alternative M2 stimulator, M2, 20ng/ml), IL-10 (M10, 2000ng/ml), IL-18 (M18, 2000ng/ml) or IL-10 and IL-18 (M1018, 2000ng/ml each). These data suggest that IL-10 and IL-18 cooperatively modulate a set of gene expressions and pathway activities in macrophages and contribute to a distinct polarization state.

Project description:Analysis of the effects of CNI-1493 treatment on M1 and M2 polarized macrophages. The purpose of this microarray is to identify genes that may be differentially expressed in M1 or M2 macrophages after treatment with CNI-1493. CNI-1493 is a known inhibitor of M1 macrophages but details of its molecular mechanism are unknown. The effect of CNI-1493 on M2 macrophages has yet to be explored, but we hypothesize that CNI-1493 treatment will attenuate pro-tumor properties of M2 macrophages. We demonstrate with this array that known macrophage markers are unchanged after treatment with CNI-1493, indicating that CNI-1493 does not change the macrophage phenotype on a transcriptional level. Additionally, no candidate genes to suggest how CNI-1493 may attenuate the pro-tumor effects of M2 macrophages are readily identifiable. Total RNA extracted from M1 or M2 macrophages after polarization with GM-CSF (25ng/ml) or M-CSF (25ng/ml) for 7 days, followed by addition of IFN-γ (20ng/ml) and LPS (100ng/ml) or IL-4 (40ng/ml) for 18 hours, respectively, from CD14+ human PBMCs, and treated with CNI-1493 (200nM)

Project description:Background: Macrophages are a heterogeneous cell population which in response to the cytokine milieu polarize in either classically activated macrophages (M1) or alternatively activated macrophages (M2). This plasticity makes macrophages essential in regulating inflammation, immune response and tissue remodeling and a novel therapeutic target in inflammatory diseases such as atherosclerosis. The aim of the study was to describe the transcriptomic profiles of differently polarized human macrophages to generate new hypotheses on the biological function of the different macrophage subtypes. Methods and Results: M1 polarization was obtained by IFN-γ and LPS, M2a by IL-4, whereas IL-10 induced a “deactivated” state (M2c). Transcription profile of M1, M2a and M2c macrophages was performed at 6, 12 and 24h after polarization with Whole Human Genome Agilent Microarray technique. Gene Ontology (GO) classification revealed that M1 showed a significant up-regulation whereas M2a a down-regulation of GO terms involved in immunity and inflammation compared to resting macrophage (RM). Unexpectedly, canonical and non-canonical Wnt genes and gene groups, promoting inflammation and tissue remodeling, were up-regulated in M2a compared to RM. Key results were confirmed by real time-PCR. Conclusion: Results from gene expression profile confirmed the specific properties of differentially polarized macrophages. However, the enhanced expression of canonical and non-canonical Wnt pathways in M2a suggests a possible dual role for alternative activation in the modulation of low-grade inflammation. Four-condition experiment, RM, M1, M2a, M2c. Three point of time course, three replicates for each condition. Dual color experiment, reference sample: human leucocytes

Project description:To reveal the transcriptomes associated with M1 or M2-polarized Kupffer cells, the primary Kupffer cells isolated from mouse liver were treated with lipopolysaccharides or IL-4 and the gene expression patterns were analyzed by microarray. To study the role of RORα in Kupffer cell polarization, Kupffer cells were treated with RORα ligands and transcriptions were compared with those of the M1/M2 polarized Kupffer cells.

Project description:microRNAs are small non-coding RNAs that regulate gene expression at a post-translational level, and play a crucial role in the development of cells of the immune system. Macrophages are essential for generating inflammatory reactions upon tissue damage and encountering of invading pathogens, yet modulation of their immune responses is critical for maintaining tissue homeostasis. Macrophages can present different phenotypes, depending on the cytokine environment they encounter in the affected tissues. In this study, we have identified expression signatures of miRNAs that are differentially regulated during maturation of monocytes and polarization of macrophages by cytokines. We present a comprehensive characterization of miRNA expression in human monocytes and M1, M2a and M2c polarized macrophages, using next-generation Sequencing by Oligonucleotide Ligation and Detection (SOLiD). We have analyzed freshly isolated human monocytes and 5 day monocyte-derived macrophages unstimulated, or stimulated with IFNgamma+TNFalpha (M1), IL-4 (M2a) or IL-10 (M2c).

Project description:Lung cancer, a prevalent and aggressive disease, is characterized by recurrence and drug resistance. Understanding the underlying mechanisms and identifying new therapeutic targets are crucial for improving treatment outcomes. Our research indicates that methylation of cg09897064 and reduced expression of ZBP1 are associated with poor prognosis in lung cancer patients. Furthermore, these factors play a role in macrophage polarization, with ZBP1 upregulated in M1 macrophages compared to both M0 and M2 polarized macrophages. We observed cg09897064 methylation in M2 polarization, but not in M0 and M1 polarized macrophages. ATACseq analysis revealed closed chromatin accessibility of ZBP1 in M0 polarized macrophages, while open accessibility was observed in both M1 and M2 polarized macrophages. Our findings suggest that ZBP1 is downregulated in M0 polarized macrophages due to closed chromatin accessibility and downregulated in M2 polarized macrophages due to cg09897064 methylation. Further investigations manipulating cg09897064 methylation and ZBP1 expression through overexpression plasmids and shRNAs provided evidence for their role in modulating macrophage polarization and tumor growth. ZBP1 inhibits M2 polarization and suppresses tumor growth, while cg09897064 methylation promotes M2 polarization and macrophage-induced tumor growth. In mechanism investigations, we found that cg09897064 methylation impairs CEBPA binding to the ZBP1 promoter, leading to decreased ZBP1 expression. Targeting these factors may hold promise as a strategy for developing innovative checkpoint inhibitors in lung cancer treatment.

Project description:We report the gene expression (obtained by next generation RNAseq) of bone marrow derived macrophages from Lyz2Cre+ or C57Bl/6 mice that have been polarized to an M1 or M2 phenotype in the presence of absence of EGFR inhibitor, Erlotinib. This study provides data on how M1 and M2 BMDMs differ in their overall gene expression profiles in mice as well as how gene expression is influenced by EGFR inhibition during polarization.

Project description:Snail1 is a transcriptional factor required for activation of cancer-associated fibroblasts (CAF). In a murine model of mammary gland cancer, mice with Snai1 gene deletion presented a greater survival and differences in macrophage differentiation with fewer M2 macrophages. Snail1 was not expressed in macrophages and in vitro polarization of monocytes towards M1 or M2 phenotypes was not altered by Snai1 gene depletion. In contrast, when macrophages were incubated with Snail1-expressing CAF or with conditioned medium derived from these cells, they exhibited a lower cytotoxic capability than when incubated with Snail1 KO (inactive) CAFs. We compared gene expression of macrophages polarized by CAF WT versus CAF KO-conditioned medium with that promoter by IFN gamma and IL4, classical M1 and M2 inducers, respectively. We observed that, compared to inactive fibroblasts, active CAF specifically upregulated the expression of some M2 genes as Arg1 and also of genes normally reduced in M1 polarization, such as Arg2, although the gene pattern differed from that stimulated by IL4. A complete list of these genes is presented here.