Project description:Here we report bulk TCR sequencing data associated with open repertoire murine CD4+, CD4+CD8+, and CD8+ T cells isolated from B16 melanoma tumor resections
Project description:To illustrate the immune cell atlas and functional heterogeneity of T cell repertoire in murine heart transplantation,we established the murine heterotopic heart transplantation model and isolated CD45 positive cells from cardiac grafts and spleens for single cell transcriptome and TCR sequencing.
Project description:According to current models, transcription factors (TFs) activated by extracellular stimuli operate in the context of a pre-established enhancer repertoire induced and maintained by lineage-specific TFs. Here, we uncovered the existence of latent enhancers, defined as regions of the genome that in terminally differentiated cells are poorly accessible and lack the histone marks characteristic of enhancers, but readily acquire these features in response to extracellular cues. Stimulation of resting macrophages caused simultaneous binding of stimulus-activated TFs and lineage-determining TFs to these regions, enabling deposition of enhancer-specific features. Once unveiled, these enhancers did not return to a latent state even when stimulation ceased; instead, they persisted and mediated a faster and stronger response upon restimulation. We suggest that stimulus-specific expansion of the available cis-regulatory repertoire provides an epigenomic memory of the exposure to environmental agents. Formaldehyde-Assisted Isolation Of Regulatory Elements (FAIRE) followed by multiparallel sequencing was performed in untreated murine bone marrow-derived macrophages.
Project description:According to current models, transcription factors (TFs) activated by extracellular stimuli operate in the context of a pre-established enhancer repertoire induced and maintained by lineage-specific TFs. Here, we uncovered the existence of latent enhancers, defined as regions of the genome that in terminally differentiated cells are poorly accessible and lack the histone marks characteristic of enhancers, but readily acquire these features in response to extracellular cues. Stimulation of resting macrophages caused simultaneous binding of stimulus-activated TFs and lineage-determining TFs to these regions, enabling deposition of enhancer-specific features. Once unveiled, these enhancers did not return to a latent state even when stimulation ceased; instead, they persisted and mediated a faster and stronger response upon restimulation. We suggest that stimulus-specific expansion of the available cis-regulatory repertoire provides an epigenomic memory of the exposure to environmental agents. Chromatin immunoprecipitations of H3 lysine 4 mono-methylated, H3 lysine 27 acetylated, H3 lysine 4 tri-methylated, the transcription factor PU.1 and total RNA polymerase II followed by multiparallel sequencing performed in murine bone marrow-derived macrophages (BMDMs). Experiments were carried out in untreated cells as well as in cells treated for 4hrs (lipopolysaccharide (LPS), IFNg, IL4, TNFa, TGFb1, IL1b, MALP2, CpG) and 24hrs (LPS).
Project description:We have used a genome-wide ChIP-sequencing approach to define and investigate the dynamics of the cis-regulatory landscape in three developmental stages of the murine hematopoietic system. To this end, we have compared the profiles of H3K4me3, H3K4me1, H3K27ac, H3K27me3 and H3K9me2 in HSCs, committed pro-B and splenic mature B cells. We find the enhancer repertoire to be dynamically reshaped during hematopoiesis progression, surprisingly only a small fraction of primed enhancers in HSCs or committed progenitors become activated in subsequent stages. In turn, the majority of active enhancers in terminally differentiated cells are not primed in earlier stages. We also found that The heterochromatin mark H3K9me2 covers large domains that remain largerly invariant across the three stages and are depleted in both active chromatin marks and the Polycomb related mark H3K27me3. Investigating enhancer dynamics in 3 different stages of B cell development
Project description:Here we report transcriptional and TCR specificities associated with murine open repertoire CD45.1+ CD4+ and CD4+CD8+, and CD45.2+ CD8+ and CD8+CD4+ T cells isolated from murine B16 tumors
Project description:A diverse antibody repertoire is formed through the rearrangement of V, D, and J segments at the immunoglobulin heavy chain (Igh) loci. The C57BL/6 murine Igh locus has over 100 functional VH gene segments that can recombine to a rearranged DJH. While the non-random usage of VH genes is well documented, it is not clear what elements determine recombination frequency. To answer this question we conducted deep sequencing of 5M-bM-^@M-^Y-RACE products of the Igh repertoire in pro-B cells, amplified in an unbiased manner. ChIP-seq results for several histone modifications and RNA polymerase II binding, RNA-seq for sense and antisense non-coding germline transcripts, and proximity to CTCF and Rad21 sites were compared to the usage of individual V genes. Computational analyses assessed the relative importance of these various accessibility elements. These elements divide the Igh locus into four epigenetically and transcriptionally distinct domains, and our computational analyses reveal different regulatory mechanisms for each region. Proximal V genes are relatively devoid of active histone marks and non-coding RNA in general, but having a CTCF site near their RSS is critical, suggesting that position near the base of the chromatin loops is important for rearrangement. In contrast, distal V genes have high levels of histone marks and non-coding RNA, which may compensate for their poorer RSS and for being distant from CTCF sites. Thus, the Igh locus has evolved a complex system for the regulation of V(D)J rearrangement that is different for of each the four domains that comprise this locus. For the ChIP-seq, input and immunoprecipitated DNA was given to The Scripps DNA Array Facility, where it was prepared for massively parallel sequencing on Illumina HiSeq2000.