Project description:Long-lived antibody-secreting plasma cells are essential to establish humoral memory against pathogens. While a plasma cell gene signature has been established, elaborate key regulators remain enigmatic.The plasma cell signature microRNA miR-148a favors in vitro differentiation of plasmablasts by repressing the germinal center transcription factor Bach2 and pro-apoptotic BIM and PTEN. To determine whether miR-148a fine-tunescontrols the in vivo development of B cells into long-lived plasma cells, we established mice with a genomic, conditional and inducible deletion of miR-148a. The analysis of miR-148a-deficient mice revealed reduced serum Ig, decreased numbers of newly formed plasmablasts and a reduced CD19-negative, CD93-positive long-lived plasma cells compartment. RNASeq and metabolic analysis showed an impaired glucose uptake and oxidative phosphorylation-based energy metabolism, altered abundance of homing receptors CXCR3 (increase) and CXCR4 (reduction) in miR-148a-deficient plasma cells. These findings establish the importance of miR-148a as a regulator of the differentiation and maintenance of late CD19-negative mature plasma cells by controlling their metabolism and retention in the bone marrow niche. clearly undermine our model of miR-148a as a regulator of the maintenance of long-lived plasma cells.

Project description:CD138-high plasma cell subsets were analyzed by single cell RNA-sequencing to identify gene expression differences between long- and short-lived plasma cells. Five different CD138-high subsets were analyzed based upon differential B220 expression and uptake of the fluorescent glucose analog 2NBDG: splenic B220+2NBDG-, B220+2NBDG+, B220-2NBDG-, B220-2NBDG+, and bone marrow B220-2NBDG+ cells.

Project description:CD138-high plasma cell subsets were analyzed by RNA-sequencing to identify gene expression differences between long- and short-lived plasma cells. Five different CD138-high subsets were analyzed based upon differential B220 expression and uptake of the fluorescent glucose analog 2NBDG: splenic B220+2NBDG-, B220+2NBDG+, B220-2NBDG-, B220-2NBDG+, and bone marrow B220-2NBDG+ cells.

Project description:Long-lived plasma cells (LLPCs) develop under the help of follicular helper T (Tfh) cells and reside mainly in the bone marrow. However, these cells are unusually abundant in the spleen of several autoimmune models including K/BxNsf mice, yet their pathogenic impact remains unknown. To investigate a previously unappreciated role of splenic LLPCs, we sorted splenic plasma cells (PCs) from K/BxNsf and K/BxN mice, corresponding to LLPCs and conventional short-lived PCs, respectively, and compared their transcriptomes. The B220+CD138+ fraction from K/BxNsf and their control K/BxN mice were sorted by FACSariaIII.

Project description:Long-lived plasma cells (LLPCs) develop under the help of follicular helper T (Tfh) cells and reside mainly in the bone marrow. However, these cells are unusually abundant in the spleen of several autoimmune models including K/BxNsf mice, yet their pathogenic impact remains unknown. To investigate a previously unappreciated role of splenic LLPCs, we sorted splenic plasma cells (PCs) from K/BxNsf and K/BxN mice, corresponding to LLPCs and conventional short-lived PCs, respectively, and compared their transcriptomes.

Project description:Humoral immunity requires the generation of high-affinity antibodies, which involves the generation of germinal centres (GC) promoting class switch and affinity maturation of antigen-specific B cells, and the differentiation of long-lived plasma cells. This multi-layered process is tightly controlled by the activity of a transcriptional network including Bcl6, essential for the development of GC, and Blimp1, required for the differentiation of plasma cells. Here, we reveal an additional layer of complexity by demonstrating that dynamic changes in E-protein activity mediated by Id3 govern both GC and plasma cell differentiation. We show that down-regulation of Id3 expression in B cells in essential for releasing E2A and E2-2, the combined activity of which is required for both GC B cell and plasma cell differentiation. We demonstrate that this pathway controls the expression of multiple key factors required for antigen-induced B cell differentiation, including Blimp1, Xbp1, Mef2b and CXCR4 and is therefore critical for establishing the transcriptional network that controls GC B cell and plasma cell differentiation. Genome binding of transcription factor E2A

Project description:ZBTB20 is an adjuvant-specific factor for long-term antibody responses. This factor is critical for maintaining long-lived plasma cells in alum-adjuvanted antibody responses but is dispensable for TLR ligand-adjuvanted responses. To identify the functions of ZBTB20 in long-lived plasma cells, we performed microarray analysis on Zbtb20-sufficient and Zbtb20-deficient polyclonal bone marrow plasma cells under the assumption that ZBTB20 regulates relevant targets in all long-lived plasma cells, irrespective of their mode of formation. Chimeras were generated using Zbtb20-sufficient (WT) or Zbtb20-deficient (TRAP) E14.5 fetal livers. 3-4 months after reconstitution, donor bone marrow B220low/-CD138+ cells (4 replicates per genotype) were purified via FACS for microarray. In total, 8 samples, 4 for each genotype, were included in this study.

Project description:ZBTB20 is an adjuvant-specific factor for long-term antibody responses. This factor is critical for maintaining long-lived plasma cells in alum-adjuvanted antibody responses but is dispensable for TLR ligand-adjuvanted responses. To identify the functions of ZBTB20 in long-lived plasma cells, we performed microarray analysis on Zbtb20-sufficient and Zbtb20-deficient polyclonal bone marrow plasma cells under the assumption that ZBTB20 regulates relevant targets in all long-lived plasma cells, irrespective of their mode of formation.

Project description:Gene expression profiling of B-cells from a model differentiation series: from Naïve B-cells, through a proliferative plasmablast stage to long-lived antibody secreting plasma cells.

Project description:Gene expression profiling of B-cells from a model differentiation series: from Naïve B-cells, through a proliferative plasmablast stage to long-lived antibody secreting plasma cells.