Project description:Comparative gene expression profiling of thymocytes at the DP, CD4 SP and CD8 SP stage derived from FoxN1-Gpr177 mice (FoxN1-Cre mediated deletion of (Exon3 of) Gpr177/Wtls) or C57Bl/6N mice as comparison. Objective was to test the influence of TEC-secreted Wnt ligands on the transcriptome of thymocytes at the respective developmental stages. Total RNA extracted from FACS-sorted primary mouse thymocytes. CD4/8 double positive (DP) thymocytes, CD4 single positive (CD4 SP) thymocytes and CD8 single positive (CD8 SP) thymocytes were FACS-sorted from conditional knock-out mice (FoxN1-Gpr177) and C57Bl/6N mice as comparison.

Project description:Double positive thymocytes (CD4+CD8+CD3lo) were sorted from 3-4-week old mice from Ikf/f CD4-Cre+ or Ikf/f CD4-Cre- mice (2 mice per genotype) and their transcriptome analyzed.

Project description:Double positive thymocytes (CD4+CD8+CD3lo) were sorted from 3-4-week old mice from Ikf/f CD4-Cre+ or Ikf/f CD4-Cre- mice (2 mice per genotype) and their transcriptome analyzed. 4 samples

Project description:BCL11B and Ikaros, transcription factors essential to normal development and maturation of T cells are associated with the Mi2-beta NuRD complex in CD4+ CD8+ double-positive thymocytes.

Project description:Hdac3 is an important target of HDAC inhibitors used in the treatment of cutaneous T cell lymphoma. In order to gain an understanding of Hdac3 function in T cells,we deleted Hdac3 from early mouse thymocytes using LCK-Cre. Hdac3 deletion resulted in a loss of single positive thymocytes due to a defect in positive selection at the double positive (DP) stage of thymocyte development. To better characterize this defect, we sorted the DP1 and DP2 populations to for gene expression profiling. Total RNA was extracted from DP1 (GFP+CD4+CD8+CD5loTCRblo) or DP2 (GFP+CD4+CD8+CD5hiTCRbint) thymocytes isolated by FACS from Hdac3+/+ or Hdac3F/F LCK-Cre+ animals. Libraries were constructed from rRNA-depleted total RNA pools to identify altered gene expression in DP populations following Hdac3 deletion.

Project description:H3K27Ac ChIP-seq in wild type and cohesin-deficient thymocytes Rad21 was deleted in CD4+ CD8+ double positive (DP) thymocytes by crossing a Rad21 floxed allele with a Cd4-driven Cre transgene. DP positive thymocytes were FACS-sorted from control and Rad21-/- littermates, which were then used to perform chromatin immunoprecipitation for histone H3 acetylated on lysine 27 (H3K27Ac).

Project description:To investigate gene targets of the E-proteins HEB and E2A during the CD4+CD8+ double positive (DP) stage of T cell development. We examined E-protein function by simultaneous removal of both HEB (Tcf12) and E2A (Tcfe2a) genes at the DP stage. This was done by crossing mice containing HEB floxed and E2A floxed alleles to a CD4Cre background (Tcf12f/fTcfe2af/fCD4Cre mice). Microarray analysis was used to compare gene expression in HEB and E2A double deficient DP thymocytes (Cre+) to Cre- control DP thymocytes. Keywords: genetic modification

Project description:Single cell suspensions of total thymocytes were obtained from Pten enhancer (PE) wild-type or knockout mice. This single-cell suspension was enriched in CD4-CD3- immature thymocyte progenitor cells. CD4-CD3- enriched thymocytes were then mixed 1:1 with single-cell suspensions from total unenriched thymocytes and subsequntly loaded in a 10x Chromium instrument for single-cell RNAseq analyses. Our results revealed Pten levels are signifcantly decreased in CD4-CD8- double negative (DN) thymocytes, CD8+ intermediate single positive (ISP) thymocytes and CD4+CD8+ double positive (DP) thymocytes in PE knockout mice, compared to PE wild-type mice.

Project description:T-cell-specific deletion of USP8 (USP8ffCD4Cre) revealed that USP8 is required for thymocyte transition to the CD4+ and CD8+ single positive (SP) stages. To evaluate underlying mechanisms, gene expression profilling was performed in CD4+CD8+ double pos thymocytes derived from control (USP8ff and USP8ffCD4Cre) mice. Microarray analysis of two groups of USP8fl/fl and USP8fl/flCD4Cre thymocytes. Material from two mice was combined for each group (eight mice in total).

Project description:T-cell-specific deletion of USP8 (USP8ffCD4Cre) revealed that USP8 is required for thymocyte transition to the CD4+ and CD8+ single positive (SP) stages. To evaluate underlying mechanisms, gene expression profilling was performed in CD4+CD8+ double pos thymocytes derived from control (USP8ff and USP8ffCD4Cre) mice.