Project description:Commensal bacteria shape the gut immune system. Colonization bacteria increase the frequency of regulatory T cells, however, the molecular mechanisms are not yet known. To reveal the mechanism, we isolated naïve CD4+ T cells from the spleen of C57BL/6 mice and cultured the cells under Treg-inducing condition culture in the presence or absence of butyrate, a metabolite produced by commensal bacteria. Naïve T cells were isolated from spleen and were cultured in the presence of IL-2, TGF-beta and in the presence or absene of Butyrate. RNA was extracted at Day 2.

Project description:Commensal bacteria shapes gut immune system. Colonization bacteria increase the frequency of regulatory T cells, however, the molecular mechanisms has not yet been unknown. To reveal the mechanism, we isolated Naïve CD4+ T cells from spleen of C57BL/6 mice and cultured the cells under Treg-inducing condition culture in the presence or absence of butyrate, a metabolite produced by commensal bacteria.

Project description:Commensal bacteria shape the gut immune system. Colonization bacteria increase the frequency of regulatory T cells, however, the molecular mechanisms are not yet known. To reveal the mechanism, we isolated naïve CD4+ T cells from the spleen of C57BL/6 mice and cultured the cells under Treg-inducing condition culture in the presence or absence of butyrate, a metabolite produced by commensal bacteria.

Project description:Gene profiling of CNS-derived microglia vs splenic CD11b+Ly6C+ monocyte subsets deom adult mice Gene array identified 1572 genes that were enriched in microglia vs. 611 monocyte enriched genes with a greater than 5-fold difference (P<0.001). Gene profiling of CD11b+CD45Low microglia isolated from the CNS and CD11b+Ly6C+ monocyte subsets isolated from the spleen of naM-CM-/ve adult mice.

Project description:BALB/c mice develop peripheral arthritis (PGIA) and spondyloarthropathy (PGIS) upon repeated intraperitoneal injections of human cartilage proteoglycan (PG) aggrecan. The aim of the present study was to identify spondylitis-specific genes by comparing intervertebral disc (IVD) RNA samples from spondyloarthropathic and naM-CM-/ve BALB/c mice. Keywords: Genetic modification We compared the gene expression data of 5 spondyloarthropathic and 3 naM-CM-/ve (control) mice.

Project description:We present a microarray study of hemocyte-enriched transcriptome in Aedes aegypti. We directed our efforts to critically assess the transcriptomic features distinctive of hemocytes, and discussed our findings in relation to infection-responsive genes and immune-relate gene families. Specifically, our analysis examined how tissue-enriched expression patterns change with the immune status of the host, and resolved patterns of transcriptional change unique to hemocytes from those that are likely shared by other immune responsive tissues. We profiled the transcriptome of circulating hemocytes and the remaining carcass in both naM-CM-/ve and bacteria-challenged adult female mosquitoes. To examine transcriptional changes associated with hemocoelic infection in distinct tissue samples, we adopted a linear model-based framework for analyzing dual-channel hybridizations (i.e., two-color microarrays) as separate single-channels (Smyth, 2004). The biological and technical dye-swap replicates of the 2M-CM-^W3 experimental conditions consisted of forty separate single-channel intensity profiles. For each biological replication, hemolymph perfusate and the remaining carcass were collected as paired samples at 24 hours post intra-hemocoelic injection of either Escherichia coli or Micrococcus luteus overnight culture (0.5 M-BM-5l) in parallel with an age-matched naM-CM-/ve group from the same cohort. Concomitantly-collected hemocyte and carcass samples were co-hybridized on microarrays. Material for each experimental condition was generated from three (bacterial challenge) or four (naM-CM-/ve) separate generations of mosquitoes, and four separate microarray hybridizations using carcass and hemocyte material were performed. The first hybridization compared naM-CM-/ve and E. coli-challenged conditions, the second compared naM-CM-/ve and M. luteus-challenged conditions, and the third and fourth compared all three conditions.

Project description:microRNA-150 (miR-150) is mainly expressed in the lymph nodes and spleen and is highly up-regulated during the development of mature T and B cells. To understand the signal-transduction network for 'effector or memory T cells' and 'mir-150' in naM-CM-/ve, effector, or memory CD8 T cells of mir-150 knockout and wild-type mice, we analyzed gene expression profiles by microarray. The genetic background of the cells used in this study is CD8 T cells from spleen of the 8 week-old male C57BL/6J mice (for female: WT-memory_2 & KO-memory_2). Corresponding authors: Inpyo Choi, PhD, Immunotherapy Research Center, Korea Research Institute of Bioscience and Biotechnology, 125 Gwahak-ro,Yuseong, Daejeon 305-806, Republic of Korea. E-mail: ipchoi@kribb.re.kr. Or: Tae-Don Kim, PhD, Immunotherapy Research Center, Korea Research Institute of Bioscience and Biotechnology, 125 Gwahak-ro, Yuseong, Daejeon 305-806, Republic of Korea. E-mail: tdkim@kribb.re.kr. wild-type[WT] vs. mir-150 knockout[KO]; naM-CM-/ve, effector, and memory CD8 T cells.

Project description:NaM-CM-/ve, liver- and gut-activated CD8 OT-I T cells show differential migration behaviour. To analyze which genes could be responsible for different migration patterns, naM-CM-/ve, liver-activated and gut-activated CD8 T cells were isolated and compared for their gene expression profile. Gene expression profiles of naM-CM-/ve CD8 OT-I T cells versus liver-activated T cells and gut-activated T cells, respectively. NaM-CM-/ve CD8 OT-I T cells were isolated from lymph nodes and spleens of OT-I mice. CD8 OT-I T cells activated by liver-derived and gut-derived antigen for three days in vivo, positive for CFSE were sorted from livers of TF-OVA mice or from mesenteric lymph nodes of iFABP-OVA mice. After total RNA extraction, reverse transcription, cDNA extraction, the biotinylated cRNA was transcribed, fragmented, and 15 M-BM-5g cRNA hybridized in duplicates for each of the three groups to the GeneChip arrays. Group1: naM-CM-/ve, Group2: liver-activated Group3: gut-activated. Lists of differentially regulated genes were created using High Performance Chip Data Analysis (HPCDA) with Bioretis database (http://www.bioretis-analysis.de). Worldwide data sharing is possible via Bioretis, please ask the authors.

Project description:In this study we identify Mettl3, an m6A RNA modification writer, as a critical regulator for terminating naM-CM-/ve pluripotency and a positive maintainer of primed pluripotency in vitro and in vivo. Remarkably, Mettl3 knockout pre-implantation epiblasts and naM-CM-/ve ES cells, entirely lack m6A on coding mRNAs and are viable. Yet, they fail to adequately terminate the naM-CM-/ve pluripotent state, and subsequently undergo aberrant priming and early lineage commitment at the post-implantation stage. A comprehensive functional and genomic analysis involving profiling of m6A, RNA transcription and translation in Mettl3 wild-type and knockout pluripotent and differentiated cells, identified m6A as a critical determinant that destabilizes secondary naM-CM-/ve specific pluripotency genes Esrrb, Klf4 and Nanog, and restrains their transcript stability and translation efficiency. In summary, our findings provide for the first time evidence for a critical role for an mRNA epigenetic modification in early mammalian development in vivo, and identify a mechanism that functionally regulates mouse naM-CM-/ve and primed pluripotency in an opposing manner. 3' polyA RNA-sequencing (equivalent to Digital Gene Expression) measured in mouse Embryonic Stem Cells (ESCs) and mouse Embriod bodies (EBs) 0,4 & 8 hours after treatment with Actinomycin which halts transcription. Measured in both WT and Mettl3-KO cells.

Project description:In this study we identify Mettl3, an m6A RNA modification writer, as a critical regulator for terminating naM-CM-/ve pluripotency and a positive maintainer of primed pluripotency in vitro and in vivo. Remarkably, Mettl3 knockout pre-implantation epiblasts and naM-CM-/ve ES cells, entirely lack m6A on coding mRNAs and are viable. Yet, they fail to adequately terminate the naM-CM-/ve pluripotent state, and subsequently undergo aberrant priming and early lineage commitment at the post-implantation stage. A comprehensive functional and genomic analysis involving profiling of m6A, RNA transcription and translation in Mettl3 wild-type and knockout pluripotent and differentiated cells, identified m6A as a critical determinant that destabilizes secondary naM-CM-/ve specific pluripotency genes Esrrb, Klf4 and Nanog, and restrains their transcript stability and translation efficiency. In summary, our findings provide for the first time evidence for a critical role for an mRNA epigenetic modification in early mammalian development in vivo, and identify a mechanism that functionally regulates mouse naM-CM-/ve and primed pluripotency in an opposing manner. m6A-seq was measured from total RNA in mouse embryonic stem cells (ESCs), embroid bodies (EBs) and embronic fibroblasts (MEF). 3 biological replicates are available from BVSC ESC line and EBs, and two biological replicates are available for MEFs. Each sample consist of IP to m6A and control input