Project description:Changes in DNA methylation are required for the formation of germinal centers (GC), but the mechanisms of such changes are poorly understood. Activation-induced cytidine deaminase (AID) has been recently implicated recently in DNA demethylation through its deaminase activity coupled with DNA repair. We investigated the epigenetic function of AID in vivo in germinal center B cells (GCB) isolated from wild type (WT) and AID-deficient (Aicda-/-) mice. We determined that the transit of B cells through the GC is associated with marked locus-specific loss of methylation and increased methylation diversity, both of which are lost in Aicda-/- animals. Differentially methylated cytosines (DMCs) between GCB and naïve B cells (NB) are enriched in genes that are targeted for somatic hypermutation (SHM) by AID and these genes form networks required for B cell development and proliferation. Finally, we observed significant conservation of AID-dependent epigenetic reprogramming between mouse and human B cells. ERRBS and RNA-seq of wild type and Aicda knockout murine naive and germinal center B cells. ERRBS of human naive and germinal center B cells
Project description:ATAC-seq in murine naive B cells, germinal center B cells, and total B cells stimulated with LPS ex vivo and transduced with empty vector or Ocab (Pou2af1) expression vector.
Project description:Gene expressions of murine germinal center and naive B cells on Affymetrix platform The experiment include 3 d14 GC B1-8, 3 d14 GC V23 and 4 NaM-CM-/ve samples
Project description:In order to assess the miRNA signature of B cells undergoing the germinal center reaction, we isolated three subsets of B cells from tonsils--naive (N), germinal center (GC), and memory (M) and looked at their miRNA profile.
Project description:We report the high-throughput profiling of murine naive B cells, germinal center (dark zone and light zone) B cells, and plasma cells transcriptome. By obtaining over 5 million bases of sequence, we generated genome-wide expression maps of cell subsets from WT mice and aPIK3CD mice. We find that activated PIK3CD signaling lead to significant alteration in gene expression of plasma cells.
