Project description:Conventional treatments for inflammatory bowel disease (IBD) have multiple potential side effects. Therefore, alternative treatments are desperately needed. In the present study, we proposed a new therapeutic tool for the treatment of IBD in murine pre-clinical models by using MSC-Exos. We demonstrated that the infused MSC-Exos are immunotolerated by the host, which is convenient for a future clinical application of MSC-Exos in IBD. To understand the molecular basis mediating the anticolitic benefit of MSC-Exos, we performed proteomic analysis using iTRAQ technology to detect the protein expression profiles in MSC-Exos and the corresponding supernatants from their parent cell MSCs. Proteomic analysis revealed that MSC-Exos were enriched in proteins involved in regulating multiple biological processes associated with the anti-colitic benefit of MSC-Exos. Particularly, metallothionein-2 in MSC-Exos was required for the suppression of inflammatory responses in macrophages. Taken together, MSC-Exos are critical regulators of inflammatory responses and may be promising candidates for IBD treatment.

Project description:Excessive inflammation within the central nervous system is injurious, but an immune response is also required for its repair. Macrophages are versatile cells that adopt different properties depending upon their microenvironment. Exposing macrophages to interleukin-4 and -13 (IL4/IL13) has incurred interest for their reparative properties. Unexpectedly, while macrophages exposed to the classic pro-inflammatory signals (interferon-γ/lipopolysaccharide, IFN/LPS) killed neurons and oligodendrocytes in culture, the addition of LPS to IL4/IL13-treated macrophages profoundly elevated IL10, repair metabolites (lactate, ornithine), glucose metabolism and the oligodendrocyte-trophic heparin-binding epidermal growth factor (HBEGF); cells did not display pro-inflammatory or neurotoxic features. In mice with spinal cord demyelination, locally-applied IL4/IL13 was insufficient to alter responses beyond controls; remarkably, the LPS/IL4/IL13-treated animals significantly increased lesional phagocytic macrophages/microglia, lactate and HBEGF levels, oligodendrogenesis and remyelination. We report a remarkably reparative state of macrophages that is unexpectedly generated by the integration of pro- (LPS) and anti- (IL4/IL13) inflammatory activation cues.

Project description:The nuclear orphan receptor Nur77 (NR4A1, TR3, or NGFI-B) has been shown to exhibit an anti-inflammatory function in macrophages. To further elucidate the role of Nur77 in macrophage physiology, we compared the transcriptome of bone marrow-derived macrophages (BMM) from wild-type (WT) and Nur77-knockout (KO) mice both before and after stimulation with IL4 or LPS. Comparison of gene expression in bone marrow-derived macrophages, isolated from 3 wild-type (control) and 3 Nur77-/- mice (case), left untreated or stimulated in triplicate for 8 hours with LPS or IL-4

Project description:Evaluation of the changes in glycosylation induced by IL-4 alternative macrophage activation Thioglycolate elicited murine peritoneal macrophages where incubated with and with out IL4 for 24 hours. Mouse RNA from macrophages incubated in OptiMEM10 and incubated in OptiMEM10 plus IL4, for 24 hours, was isolated and prepared in triplicate. RNA was labeled and hybridized to the GLYCOv3 array. Resulting Gene expression patterns were analyzed.

Project description:Arginase 1 (Arg1), which converts L-arginine into ornithine and urea, exerts pleiotropic immunoregulatory effects. Patients with inflammatory bowel disease (IBD) show an enhanced expression and activity of Arg1 in the intestinal (sub-)mucosa, but the function of Arg1 in IBD remains poorly characterized. Here, we found that Arg1 expression correlates with the degree of inflammation in colitic tissues of IBD patients. In mice with - experimental colitis Arg1 was upregulated in an IL-4-/IL-13- and intestinal microbiota-dependent manner. Tie2-Cre+/-Arg1fl/fl mice lacking Arg1 in hematopoietic and endothelial cells recovered faster from colitis than Arg1-expressing littermates. This correlated with decreased vessel density, compositional changes in the intestinal microbiota, diminished infiltration by myeloid cellsand an accumulation of intraluminal polyamines that are associated with epithelial healing. Dietary L-arginine restriction abolished the protective effect of Arg1-deletion, suggesting that protection is related to an increased availability of L-arginine. Fecal microbiota transfers from Tie2-Cre+/-Arg1fl/fl mice into wildtype recipients restored the protective, anti-inflammatory phenotype while transfers from wildtype littermates into Arg1-deficient mice prevented the accelerated recovery from colitis. Thus, altered intestinal microbiota and metabolic products in Tie2-Cre+/-Arg1fl/fl mice account for the accelerated resolution from colitis in the absence of Arg1. Subsequently, L-arginine serves as novel therapeutic and diagnostic target for clinical intervention in IBD patients.

Project description:To further development of gene expression in inflammatory bowel disease(IBD), we have employed whole genome microarray expression profiling as a discovery platform to identify genes with the potential to distinguish IBD patients and healthy volunteers. Colon biopsies were obtained from IBD patients and healthy volunteers during endoscopy. There were 353 genes that showed greater than 4-fold differential expression (285 upregulated and 68 downregulated) between IBD patients and healthy volunteers.

Project description:High quality CD14+ monocytes/macrophages (plMo/Mφ) were used for RNA-sequencing (RNA-seq) in comparison with human monocyte-derived macrophages (MDM) natural (MDM-0) or IL-4-polarized(MDM-IL4)

Project description:The experiments were done using an Orbitrap Fusion or an Orbitrap Fusion Lumos mass spectrometer. Multiplexing was achieved using either TMT10 or TMT11 reagents and the SPS-MS3 method. Basic pH reversed-phase chromatography (bRPLC) was used for off-line pre-fractionation; 12 fractions were analyzed for proteome mappings (PMID: 26700037) and 24 fractions plus a phosphotyrosine-enriched sample for phosphoproteome mappings (PMID: 31606085). Phosphoproteome mappings were done using both HCD fragmentation with Orbitrap fragment ion detection and CID fragmentation with ion trap fragment ion detection (PMID: 29487189, PMID: 31606085). If multiple TMT sets were required to analyze all samples from an experiment two bridge channels pooled from all samples was used to connect the data from the individual TMT sets (PMID: 28892078). Five proteomics experiments are described in the paper: (i) 1. Quantitative proteomics of fully polarized macrophages after 4 days of treatment with IL4 or IFNgamma/LPS to determine global proteome landscape of fully polarized THP-1-derived M1-type versus M2a-type macrophages: Proteome mapping on Orbitrap Fusion (one TMT set) RAW files: Marneros_4DayTreatment_proteome_fraction01 to ...fraction12 8 samples Labeling: PMA.1 (126), PMA.2 (127n), IL4.1 (127c), IL4.2 (128n), ILJQ1.1 (128c), ILJQ1.2 (129n), IFNgamma.1 (129c), IFNgamma.2 (130n) (ii) Time-course quantitative proteomics during the first 24 hours after induction of macrophage polarization in THP-1-derived macrophages to identify protein changes associated with M1-type (IFNgamma/LPS-induced) versus M2a-type (IL-4-induced) polarization: Proteome mapping on Orbitrap Fusion (three TMT sets: set01, set02, set03) RAW files: Marneros_timecourse_proteome_TMTset01_fraction01 to ...fraction12 Marneros_timecourse_proteome_TMTset02_fraction01 to ...fraction12 Marneros_timecourse_proteome_TMTset03_fraction01 to ...fraction12 22 samples Labeling: set01; bridge 1 (126), PMA 0min (127n), PMA 10min (127c), PMA 30min (128n), PMA 1h (128c), PMA 2h (129n), PMA 4h (129c), PMA 8h (130n), PMA 24h (130c), bridge 2 (131n) set02; bridge 1 (126), IL4 10min (127n), IL4 30min (127c), IL4 1h (128n), IL4 2h (128c), IL4 4h (129n), IL4 8h (129c), IL4 24h (130n), IFN 10min (130c), bridge 2 (131n) set03; bridge 1 (126), IFN 30min (127n), IFN 1h (127c), IFN 2h (128n), IFN 4h (128c), IFN 8h (129n), IFN 24h (129c), bridge 2 (131n) (iii) Time-course quantitative phosphoproteomics during the first 24 hours after induction of macrophage polarization in THP-1-derived macrophages to identify phosphorylation events associated with M1-type (IFNgamma/LPS-induced) versus M2a-type (IL-4-induced) polarization (same time points as in group 2): Phosphoproteome mapping on Orbitrap Fusion (three TMT sets: set01, set02, set03) RAW files: Marneros_timecourse_phospho_TMTset01_fraction01 to ...fraction06, ...fraction08 to ...fraction24, ...pY Marneros_timecourse_phospho_TMTset02_fraction01 to ...fraction12, ...fraction16 to ...fraction24, ...pY Marneros_timecourse_phospho_TMTset03_fraction01 to ...fraction24, ...pY The following RAW files gave no phosphopeptide quantifications (they are no included in the group of provided RAW files): set01_fraction07, set02_fraction13, set02_fraction14, set02_fraction15. 22 samples Labeling: as in (ii) (iv) Quantitative proteomics to assess the effects of the B-Raf inhibitor GDC-0879 or of the MEK inhibitor trametinib on IL-4-induced M2-type polarization and IFNgamma/LPS-induced M1-type polarization on THP-1-derived macrophages after 24 hours of treatment: Proteome mapping on Orbitrap Fusion (one TMT set) RAW files: Marneros_BRAF_inhibitor_proteine_fraction01 to ...fraction12 11 samples Labeling: IL4 1 (131c), IL4 2 (127n), IL4+GDC 1 (131n), IL4+GDC 2 (128n), IL4+TRAM 1 (130c), IL4+TRAM 2 (129n), IFNgamma+LPS 1 (130n), IFNgamma+LPS 2 (127c), IFNgamma+LPS+TRAM 1 (126), IFNgamma+LPS+TRAM 2(129c), IFNgamma+LPS+GDC (128c) (v) Quantitative phosphoproteomics to assess the effects of the B-Raf inhibitor GDC-0879 on IL-4-induced M2-type polarization and IFNgamma/LPS-induced M1-type polarization on THP-1-derived macrophages after 24 hours of treatment: Phosphoproteome mapping on Orbitrap Fusion Lumos (one TMT set) RAW files: Marneros_BRAF_inhibitor_phospho_fraction01 to ...fraction24, ...pY 7 samples Labeling: IL4 1 (131c), IL4 2 (127n), IL4+GDC 1 (130n), IL4+GDC 2 (128n), IFNgamma+LPS 1 (128c), IFNgamma+LPS 2 (127c), IFNgamma+LPS+GDC (130c)

Project description:To further development of gene expression in inflammatory bowel disease(IBD), we have employed whole genome microarray expression profiling as a discovery platform to identify genes with the potential to distinguish IBD patients and healthy volunteers. Colon biopsies were obtained from IBD patients and healthy volunteers during endoscopy. There were 353 genes that showed greater than 4-fold differential expression (285 upregulated and 68 downregulated) between IBD patients and healthy volunteers. Colon biopsies were obtained from 3 CD and age- ,sex- mathed healthy controlspatients and 3 healthy volunteers during endoscopy.

Project description:To investigate how an allergic cytokine environment (associated with increased levels of IL4 and IL-13) alters the response of macrophages to a pro-inflammatory stimulus.