Ular labelling IL13-APC, INF-c-PE-Cy7, IL-17-PE and Granzyme B-APC antibodies were used. Isotype matched controls were used appropriately. Alexa Fluor 647 conjugated phospho-specific antibodies were used for Phospho flow experiments on human IL-4 DC and were all from BD Biosciences. Akt(S478), Btk(Y557)/ Itk(Y511), CREB(S133)/ATF1(S63), ERK1/2(T202/Y204), IRF7(S477/S479), Lck(Y505), NF-kB p65(S529), PLC-c1 (Y783), PLC-c2 (Y759), p38 MAPK(T180/Y182), b-Catenin (S45), SHP2(Y542), Src(Y418), SLP-76(Y128), S6(S235/S236), STAT1(Y701), STAT1(S727), STAT3(Y705), STAT3(S727), STAT4(S693), STAT5(S694), STAT6(Y641), 1531364 4EBP1(T36/T45), Zap70(Y319)/Syk(Y352), JNK(T183/Y185).Mice and CellsC57Bl/6 mice from Jackson Laboratory and OT-I, OT II TCR transgenic mice on C57Bl/6 background were used. C57BL/6, Tlr42/2 and Tlr22/2 mice were maintained at the CIML animal house, France. Mouse bone marrow-derived DC (BMDC) and macrophages (BMDM) were prepared from 7? week-old female C57BL/6 mice as previously described (Lapaque et al, 2006).Human DCHuman IL-4 monocyte-derived DC were generated from Ficollseparated PBMC from healthy volunteers. Monocytes were enriched from the leukopheresis according to cellular density and size by elutriation as per manufacturer’s recommendations. For DC generation, monocytes were resuspended in serum-free Cellgro DC culture supplemented with GM-CSF and IL-4. Blood myeloid DC (HLA-DR+CD11c+CD1232Lin2) were sorted from ?fresh PBMC using FACSAria (BD Biosciences). Naive CD4+ and CD8+ T cells (CD45RA+CD45RO2) (purity.99.2 ) were purified by FACS-sorting.LipopolysaccharidesThe methods used in the extraction, purification and characterization of the LPS used in this study have been described previously (Lapaque et al, 2006). Briefly, Y. pestis KIM6, E. coli MLK3 and its lipid A mutants MLK53 htrB2 (lauroyl-transferase), MLK 1067 msbB2 (miristoyl-transferase) and MLK 2/ 986 htrB msbB2 were grown at the appropriate temperature, crude LPS obtained by the phenol-water method and then purified to remove traces of contaminant lipids and lipoproteins. The degree of lipid A acylation was determined by nanoelectrospray ionization time-of-flight mass spectrometry (ESITOF-MS) (Lapaque et al, 2006). For all experiments, LPS variants have been used at the concentration of 100 ng/ml. Lipid Iva was purchased from PeptaNova.Immunofluorescence MicroscopyFor immunofluorescence microscopy, 26105 stimulated BMDCs on coverslips were fixed in 3 paraformaldehyde at RT for 15 min, washed twice in PBS 1X and processed for immunofluorescence labelling. To stain NF-kB, mouse BMDCs and BMDMs were permeabilized with PBS 1X 1 saponin (for 10 min at RT) and then saturated with PBS 1X 2 BSA (for 1 h at RT). CD11c (1 in 100), NF-kB subunit p65/ReiA (1 in 250) and MHC II (1 in 300) were used as primary antibodies. After staining, samples were examined on a Zeiss LSM 510 laser scanning confocal microscope for image acquisition. Images were then assembled using Adobe Photoshop 7.0. Quantifications were done by counting at least 300 cells in 3 independent experiments.Antibodies and ReagentsThe primary antibodies used for immunofluorecence microscopy were: mouse FK2 antibody (anti-mono- and order SCH 727965 U 90152 site polyubiquitinylated conjugates) (Enzo Life Science), affinity purified rabbit “Rivoli” antibody against murine I-A, NF-kB subunit p65/ReiA (Santa Cruz), CD11c (Bolegend). Pam2CSK4 was purchased from InvivoGen to activate DC. Antibodies used for flow cytometry included APC-CD11c (1 i.Ular labelling IL13-APC, INF-c-PE-Cy7, IL-17-PE and Granzyme B-APC antibodies were used. Isotype matched controls were used appropriately. Alexa Fluor 647 conjugated phospho-specific antibodies were used for Phospho flow experiments on human IL-4 DC and were all from BD Biosciences. Akt(S478), Btk(Y557)/ Itk(Y511), CREB(S133)/ATF1(S63), ERK1/2(T202/Y204), IRF7(S477/S479), Lck(Y505), NF-kB p65(S529), PLC-c1 (Y783), PLC-c2 (Y759), p38 MAPK(T180/Y182), b-Catenin (S45), SHP2(Y542), Src(Y418), SLP-76(Y128), S6(S235/S236), STAT1(Y701), STAT1(S727), STAT3(Y705), STAT3(S727), STAT4(S693), STAT5(S694), STAT6(Y641), 1531364 4EBP1(T36/T45), Zap70(Y319)/Syk(Y352), JNK(T183/Y185).Mice and CellsC57Bl/6 mice from Jackson Laboratory and OT-I, OT II TCR transgenic mice on C57Bl/6 background were used. C57BL/6, Tlr42/2 and Tlr22/2 mice were maintained at the CIML animal house, France. Mouse bone marrow-derived DC (BMDC) and macrophages (BMDM) were prepared from 7? week-old female C57BL/6 mice as previously described (Lapaque et al, 2006).Human DCHuman IL-4 monocyte-derived DC were generated from Ficollseparated PBMC from healthy volunteers. Monocytes were enriched from the leukopheresis according to cellular density and size by elutriation as per manufacturer’s recommendations. For DC generation, monocytes were resuspended in serum-free Cellgro DC culture supplemented with GM-CSF and IL-4. Blood myeloid DC (HLA-DR+CD11c+CD1232Lin2) were sorted from ?fresh PBMC using FACSAria (BD Biosciences). Naive CD4+ and CD8+ T cells (CD45RA+CD45RO2) (purity.99.2 ) were purified by FACS-sorting.LipopolysaccharidesThe methods used in the extraction, purification and characterization of the LPS used in this study have been described previously (Lapaque et al, 2006). Briefly, Y. pestis KIM6, E. coli MLK3 and its lipid A mutants MLK53 htrB2 (lauroyl-transferase), MLK 1067 msbB2 (miristoyl-transferase) and MLK 2/ 986 htrB msbB2 were grown at the appropriate temperature, crude LPS obtained by the phenol-water method and then purified to remove traces of contaminant lipids and lipoproteins. The degree of lipid A acylation was determined by nanoelectrospray ionization time-of-flight mass spectrometry (ESITOF-MS) (Lapaque et al, 2006). For all experiments, LPS variants have been used at the concentration of 100 ng/ml. Lipid Iva was purchased from PeptaNova.Immunofluorescence MicroscopyFor immunofluorescence microscopy, 26105 stimulated BMDCs on coverslips were fixed in 3 paraformaldehyde at RT for 15 min, washed twice in PBS 1X and processed for immunofluorescence labelling. To stain NF-kB, mouse BMDCs and BMDMs were permeabilized with PBS 1X 1 saponin (for 10 min at RT) and then saturated with PBS 1X 2 BSA (for 1 h at RT). CD11c (1 in 100), NF-kB subunit p65/ReiA (1 in 250) and MHC II (1 in 300) were used as primary antibodies. After staining, samples were examined on a Zeiss LSM 510 laser scanning confocal microscope for image acquisition. Images were then assembled using Adobe Photoshop 7.0. Quantifications were done by counting at least 300 cells in 3 independent experiments.Antibodies and ReagentsThe primary antibodies used for immunofluorecence microscopy were: mouse FK2 antibody (anti-mono- and polyubiquitinylated conjugates) (Enzo Life Science), affinity purified rabbit “Rivoli” antibody against murine I-A, NF-kB subunit p65/ReiA (Santa Cruz), CD11c (Bolegend). Pam2CSK4 was purchased from InvivoGen to activate DC. Antibodies used for flow cytometry included APC-CD11c (1 i.
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