Project description:mRNA-seq of Tgfbr2 KO CD8 T cells (d8/d15)

Project description:This experiment was performed to examine transcriptional differences between differentiated (Tim3+) and stem-like (CXCR5+) WT vs. Tgfbr2 KO antigen-specific CD8 cells.

Project description:This experiment was performed to examine transcriptional differences between differentiated (Tim3+) and stem-like (CXCR5+) WT vs. Tgfbr2 KO antigen-specific CD8 cells at day 30 after LCMV clone 13 infection.

Project description:This experiment was performed to examine transcriptional differences between WT and Tgfbr2 KO antigen-specific CD8 cells activated in established chronic infection.

Project description:mRNA-seq of WT and Tgfbr2 KO CD8 T cells transferred into chronically infected mice

Project description:CD36 ko and WT CD8 T Cells

Project description:To investigate the role of cd36 on CD8 T cells,we did RNAseq to find the difference between CD36 ko and WT CD8 T Cells

Project description:Transforming growth factor (TGF) plays an important role in tooth morphogenesis and mineralization. During postnatal development, the dental pulp (DP) mesenchyme secretes neurotrophic factors that guide trigeminal nerve fibers into and throughout the DP. This process is tightly linked with dentin formation and mineralization. Our laboratory established a mouse model in which Tgfbr2 was conditionally deleted in DP mesenchyme using an Osterix promoter-driven Cre recombinase (Tgfbr2cko). These mice survived postnatally with significant defects in bones and teeth, including reduced mineralization and short roots. Hematoxylin and eosin staining revealed reduced axon-like structures in the mutant mice. Reporter imaging demonstrated that Osterix-Cre activity within the tooth was active in the DP and derivatives, but not in neurons. Immunofluorescence staining for 3 tubulin (neuronal marker) was performed on serial cryosections from control and mutant molars on postnatal days 7 and 24 (P7, P24). Confocal imaging and pixel quantification demonstrated reduced innervation in Tgfbr2cko first molars at both stages compared to controls, indicating that signals necessary to promote neurite outgrowth were disrupted by Tgfbr2 deletion. We performed mRNA-Sequence (RNA-Seq) and gene onotology analyses using RNA from the DP of P7 control and mutant mice to investigate the pathways involved in Tgfbr2-mediated tooth development. These analyses identified downregulation of several mineralization-related and neuronal genes in the Tgfbr2cko DP compared to controls. Select gene expression patterns were confirmed by quantitative real-time PCR and immunofluorescence imaging. Lastly, trigeminal neurons were co-cultured atop Transwell filters overlying primary Tgfbr2f/f DP cells. Tgfbr2 in the DP was deleted via adenovirus-expressed Cre recombinase. Confocal imaging of axons through the filter pores showed increased axonal sprouting from neurons cultured with Tgfbr2-positive DP cells compared to neurons cultured alone. Axon sprouting was reduced when Tgfbr2 was knocked down in the DP cells. Immunofluorescence of dentin sialophosphoprotein in co-cultured DP cells confirmed reduced mineralization potential in cells with Tgfbr2 deletion. Both our proteomics and RNA-Seq analyses indicate that axonal guidance cues, particularly semaphorin signaling, were disrupted by Tgfbr2 deletion. Thus, Tgfbr2 in the DP mesenchyme appears to regulate differentiation and the cells’ ability to guide neurite outgrowth during tooth mineralization and innervation.

Project description:ScRNA-seq of stromal and immune cells in WT and TGFBR2 KO mice

Project description:Tgfbr2 controls signal transduction after binding activated Tgfb1. Inactivation of this receptor in endothelium results in vascular dysplasia and severe hemorrhage. Here, we define the transcriptional profile of endothelial cells lacking Tgfbr2.