Project description:Murine IgD+ B Cells transcriptome analysis when stimulated with LPS and LPS+anti-CD40 [72 hours]

Project description:Murine IgD+ B cells transcriptome analysis when stimulated with LPS and LPS+anti-CD40 [24 hours]

Project description:Murine IgD+ B cells transcriptome analysis when stimulated with LPS and LPS+anti-CD40

Project description:The effect of LPS and LPS+antiCD40 on the Transcriptome of IgD+ B Cells was analysed here at 48 hours after the stimulation B-lymphocytes constitute an important aspect of mammalian immune systems by virtue of their ability to produce highly specific antibodies in response to foreign antigens and pathogens. When B-lymphocytes encounter the particular antigen that they are responsive to, they differentiate into two types of cells: short-lived antibody-secreting plasma cells and long-lived memory cells. While the plasma B cells are responsible for the rapid resolution of a current infection or immune challenge, the memory B cells are responsible for mounting a rapid response to subsequent exposures. Previous work had demonstrated that treatment of mice with a single dose of anti-CD40 at the time of immunization leads to improved secondary responses, suggesting an enhancement of the memory B cell pool. We are currently studying the molecular mechanisms underlying the generation of memory B cells, using CD40 signalling as a tool. We have carried out a Microarray analyses of genome wide gene expression patterns in naïve B-lymphocytes following CD40 signalling, over multiple time points. Analysis used LPS treated IgD+B cells as control for comparison to LPS+anti-CD40 treated cells (test).Indirect comparisons were made across multiple arrays with raw data pulled from different channels for data analysis and comparison to the control data.

Project description:Splenic B cells isolated from SCAP+/+ CD19-Cre (WT) and SCAPfl/fl CD19-Cre (KO) mice were stimulated with LPS or anti-CD40 for 24 and 48 hours. Cells were then analyzed by metabolomics. Metabolomics reveals global metabolic changes in SCAP deficient B cells.

Project description:Murine IgD+B Cells transcriptome analysis -untreated and when stimulated with LPS

Project description:B-lymphocytes constitute an important aspect of mammalian immune systems by virtue of their ability to produce highly specific antibodies in response to foreign antigens and pathogens. When B-lymphocytes encounter the particular antigen that they are responsive to, they differentiate into two types of cells: short-lived antibody-secreting plasma cells and long-lived memory cells. While the plasma B cells are responsible for the rapid resolution of a current infection or immune challenge, the memory B cells are responsible for mounting a rapid response to subsequent exposures. Previous work had demonstrated that treatment of mice with a single dose of anti-CD40 at the time of immunization leads to improved secondary responses, suggesting an enhancement of the memory B cell pool. We are currently studying the molecular mechanisms underlying the generation of memory B cells, using CD40 signalling as a tool. We have carried out a microarray analysis of genome-wide gene expression patterns in naïve B-lymphocytes following CD40 signalling over multiple time points. The effect of LPS and LPS+antiCD40 on the transcriptome of IgD+ B cells was analyzed 24 hours after stimulation. The analysis used LPS-treated IgD+B cells as the control for comparison to LPS+anti-CD40-treated cells (test). Indirect comparisons were made across multiple arrays with raw data pulled from different channels for data analysis and comparison to the control data.

Project description:The effect of LPS and LPS+antiCD40 on the Transcriptome of IgD+ B Cells was analysed here at 72 hours after the stimulation. B-lymphocytes constitute an important aspect of mammalian immune systems by virtue of their ability to produce highly specific antibodies in response to foreign antigens and pathogens. When B-lymphocytes encounter the particular antigen that they are responsive to, they differentiate into two types of cells: short-lived antibody-secreting plasma cells and long-lived memory cells. While the plasma B cells are responsible for the rapid resolution of a current infection or immune challenge, the memory B cells are responsible for mounting a rapid response to subsequent exposures. Previous work had demonstrated that treatment of mice with a single dose of anti-CD40 at the time of immunization lead to improved secondary responses, suggesting an enhancement of the memory B cell pool. We are currently studying the molecular mechanisms underlying the generation of memory B cells, using CD40 signalling as a tool. We have carried out a Microarray analyses of genome wide gene expression patterns in naïve B-lymphocytes following CD40 signalling, over multiple time points. Analysis used LPS treated IgD+ B cells as control for comparison to LPS+anti-CD40 treated cells (test).Indirect comparisons were made across multiple arrays with raw data pulled from different channels for data analysis and comparison to the control data.

Project description:Transcriptome comparison of untreated murine IgD+B cell with LPS treated IgD+B cell B-lymphocytes constitute an important aspect of mammalian immune systems by virtue of their ability to produce highly specific antibodies in response to foreign antigens and pathogens. When B-lymphocytes encounter the particular antigen that they are responsive to, they differentiate into two types of cells: short-lived antibody-secreting plasma cells and long-lived memory cells. While the plasma B cells are responsible for the rapid resolution of a current infection or immune challenge, the memory B cells are responsible for mounting a rapid response to subsequent exposures. Previous work had demonstrated that treatment of mice with a single dose of anti-CD40 at the time of immunization lead to improved secondary responses, suggesting an enhancement of the memory B cell pool. We are currently studying the molecular mechanisms underlying the generation of memory B cells, using CD40 signalling as a tool. We have carried out a Microarray analyses of genome wide gene expression patterns in naïve B-lymphocytes following CD40 signalling, over multiple time points. Analysis used untreated IgD+B cells as control for comparison to LPS treated cells as test. Indirect comparisons were made across multiple arrays with raw data pulled from different channels for data analysis and comparison to the control data.

Project description:The effect of LPS and LPS+antiCD40 on the Transcriptome of IgD+ B Cells was analysed here at 48 hours after the stimulation B-lymphocytes constitute an important aspect of mammalian immune systems by virtue of their ability to produce highly specific antibodies in response to foreign antigens and pathogens. When B-lymphocytes encounter the particular antigen that they are responsive to, they differentiate into two types of cells: short-lived antibody-secreting plasma cells and long-lived memory cells. While the plasma B cells are responsible for the rapid resolution of a current infection or immune challenge, the memory B cells are responsible for mounting a rapid response to subsequent exposures. Previous work had demonstrated that treatment of mice with a single dose of anti-CD40 at the time of immunization leads to improved secondary responses, suggesting an enhancement of the memory B cell pool. We are currently studying the molecular mechanisms underlying the generation of memory B cells, using CD40 signalling as a tool. We have carried out a Microarray analyses of genome wide gene expression patterns in naïve B-lymphocytes following CD40 signalling, over multiple time points.