Project description:gd T cells recognize unprocessed or non-peptide antigens, respond rapidly to infection, and localize to mucosal surfaces. We have hypothesized that the innate functions of gd T cells may be more similar to those of cells of the myeloid lineage than to other T cells. To begin to test this assumption, we have analyzed the direct response of cultured human and peripheral blood bovine gd T cells to pathogen associated molecular patterns (PAMPs) in the absence of APCs using microarray, real time RT-PCR, proteome array, and chemotaxis assays. Our results indicate that purified gd T cells respond directly to PAMPs by increasing expression of chemokine and activation related genes. The response was distinct from that to known gd T cell antigens and different from the response of myeloid cells to PAMPs. In addition, we have analyzed the expression of a variety of PAMP receptors in gd T cells. Freshly purified bovine gd T cells responded more robustly to PAMPs than did cultured human cells and expressed measurable mRNA encoding a variety of PAMP receptors. Our results suggest that rapid response to PAMPs through the expression of PAMP receptors may be another innate role of gd T cells. Keywords: parallel sample

Project description:We have begun to approach gd T cells more as prospective innate cells than as conventional T cells. Recent results indicated that purified gd T cells are primed directly in response to pathogen associated molecular patterns (PAMPs) to better respond to secondary signals and increase expression of chemokine and activation-related genes. In microarray and real time PCR analyses of RNA derived from bovine and human gd T cells, transcripts encoding Nod2 were repeatedly amplified. Nod2 is the intracellular receptor for muramyl dipeptide (MDP), a subunit of PGN, functions in regulating innate activities, and was thought to be expressed primarily in APCs. Given our repeated detection of Nod2 transcripts in gd T cells, the specific direct response of gd T cells to MDP was analyzed by microarray, real time PCR, proteome array and in a functional priming assay. The results indicate a subtle activation in response to MDP akin to priming, and suggest a unique mechanism for differential gene expression. Experiment Overall Design: PBLs from calf 129 were stained with GD3.8 directly conjugated to FITC, washed, and sorted on a Vantage SE cell sorter (BD Immunocytometry Systems) as previously described. PBLs from calves 150 and 151 were stained with GD3.8, and anti-Mouse IgG magnetic beads and sorted with MACS magnetic bead system (Miltenyi Biotec) as previously described to a purity of >98%. Sorted cells were rested overnight, stimulated for 4 hours then lysed in Buffer RLT and genomic DNA sheared using Qiashredder columns then frozen at -80oC. RNA was extracted following the manufacturer’s protocol for RNeasy (Qiagen) column purification, assessed on a Bioanalyzer 2100 (Agilent Technologies), and amplified using the Affymetrix One-cycle protocol with approximately 1.7micrograms of total RNA as described in the GeneChip® Expression Analysis Technical Manual (June 2004). Hybridizations to Genechip® Bovine Genome Arrays (Affymetrix) were performed with 15 mg biotin labeled cRNA. Washing and staining was performed in the GeneChip® Fluidics Station 450 using the Midi_euk2v3 protocol. Chip scans were performed on the Affymetrix GeneChip® Scanner 3000. GeneChip® Operating Software (GCOS v.1.1, Affymetrix) 19;20 was used for data collection.

Project description:gd T cells have an important yet incompletely defined role in inflammation associated with a variety of infectious and autoimmune conditions. To better understand the precise roles of gd T cells relative to ab T cells in a specific infection, we utilized Salmonella Enterica Serovar Typhimurium (S. typhimurium) infection in cattle as it is a leading cause of disease in cattle and closely approximates S. typhimurium-induced enterocolitis in humans. To best represent phenotype and gene expression changes occurring in the gut mucosa early in S. typhimurium infection, gd and ab T cells were collected directly from the mesenteric lymphatic ducts and analyzed by FACS or immediately sorted and processed for microarray analysis. Gene expression profiles were compared at intervals during infection within T cell subsets. The majority of gene expression changes in both subsets occurred 48 hours after infection. In response to S. typhimurium infection there was an increase in expression of several genes in gd T cells which were indicative of activation, proliferation and innate function, whereas in ab T cells gene expression changes suggested a lack of S. typhimurium-specific response. This work represents the first focus on gene expression trends in tissue-derived T lymphocytes in an in vivo model that is highly relevant to human S. typhimurium-induced enterocolitis. Experiment Overall Design: For one mock infection (calf 156) and two experimental S. typhimurium infections (calves 112 and 162), gd and ab lymphatic T cells were stained with GD3.8 directly conjugated to FITC, washed, and sorted on a Vantage SE cell sorter (BD Immunocytometry Systems) as previously described. Sorted gd and ab T cells were collected directly into TRIzol reagent (Invitrogen; calf 112) and lysed or suspended in Buffer RLT (Qiagen; calves 156 and 162) and lysed using Qiashredder columns, then frozen at -80oC. RNA was extracted following the manufacturer’s protocol for Trizol (Invitrogen) extraction, or RNeasy (Qiagen) column purification, assessed on a Bioanalyzer 2100 (Agilent Technologies), and amplified either using Affymetrix Two-cycle (calf 112) target labeling protocol with 100 ng total RNA or the One-cycle protocol (calves 156 and 162) with approximately 1.6 micrograms of total RNA as described in the GeneChip® Expression Analysis Technical Manual (June 2004). Hybridizations to Genechip® Bovine Genome Arrays (Affymetrix) were performed with 15 micrograms biotin labeled cRNA. Washing and staining was performed in the GeneChip® Fluidics Station 450 using the Midi_euk2v3 protocol. Chip scans were performed on the Affymetrix GeneChip® Scanner 3000. GeneChip® Operating Software (GCOS v.1.1, Affymetrix) was used for data collection. Experiment Overall Design: Table I represents annotated genes of potential interest that changed 2 fold or greater in expression between 0 and 48 hours post-Salmonella infection (calves 112 and 162) or mock-infection (calf 156) in T cell subsets.

Project description:Affymetrix GeneChip® Human Transcriptome Array 2.0

Project description:Affymetrix GeneChip® Human Transcriptome Array 2.0

Project description:Live attenuated vaccines are often superior to dead vaccines, yet the immunological mechanisms remain largely obscure. We have recently uncovered an inherent capacity of antigen-presenting cells (APC) to discriminate live from killed bacteria by virtue of vita-PAMPs. Here we found that innate recognition of bacterial viability strongly promotes the differentiation of fully functional T follicular helper (TFH) cells. We identify TLR8 and its signaling adaptor MyD88 as critical sensor for bacterial viability in human APC, activation of which is required and sufficient to induce selective transcriptional remodeling and the production of TFH promoting signals like IL-12. Activators of other TLRs including licensed vaccine adjuvants fail to do so. Consequently, vita-PAMP receptors such as TLR8 represent promising targets for adjuvants to improve the efficacy of modern inanimate subunit vaccines. Human monocytes were infected with live or heat-killed E. coli for 6h.

Project description:Ligand recognition by cell-surface receptors underlies development and immunity in both animals and plants. Modulating receptor signaling is critical for appropriate cellular responses but the mechanisms ensuring this are poorly understood. Here, we show that signaling by plant receptors for pathogen-associated molecular patterns (PAMPs) in immunity and CLAVATA3/EMBRYO SURROUNDING REGION-RELATED peptides (CLEp) in development employs a similar regulatory module. In the absence of ligand, signaling is dampened through association with specific type-2C protein phosphatases (PP2Cs). Upon activation, PAMP and CLEp receptors phosphorylate divergent cytosolic kinases, which, in turn, phosphorylate the phosphatases, thereby promoting receptor signaling. Our work reveals a regulatory circuit shared between immune and developmental receptor signaling, which may have broader important implications for plant receptor kinase-mediated signaling in general.

Project description:GeneChip® Mouse Gene 2.0 ST Array for C57BL/6 mouse skin dermal primary lymphatic endothelial cells (Ms LEC) and mouse lymphatic endothelial cell line SVEC4-10 GeneChip® Human Gene 2.0 ST Array for human primary lymphatic endothelial cells (Hu LEC) Total RNA from lymphatic cell line SVEC4-10 were used for GeneChip® Mouse Gene 2.0 ST Array. SVEC4-10 samples, human and mouse LEC samples.

Project description:Live attenuated vaccines are often superior to dead vaccines, yet the immunological mechanisms remain largely obscure. We have recently uncovered an inherent capacity of antigen-presenting cells (APC) to discriminate live from killed bacteria by virtue of vita-PAMPs. Here we found that innate recognition of bacterial viability strongly promotes the differentiation of fully functional T follicular helper (TFH) cells. We identify TLR8 and its signaling adaptor MyD88 as critical sensor for bacterial viability in human APC, activation of which is required and sufficient to induce selective transcriptional remodeling and the production of TFH promoting signals like IL-12. Activators of other TLRs including licensed vaccine adjuvants fail to do so. Consequently, vita-PAMP receptors such as TLR8 represent promising targets for adjuvants to improve the efficacy of modern inanimate subunit vaccines.

Project description:We have begun to approach gd T cells more as prospective innate cells than as conventional T cells. Recent results indicated that purified gd T cells are primed directly in response to pathogen associated molecular patterns (PAMPs) to better respond to secondary signals and increase expression of chemokine and activation-related genes. In microarray and real time PCR analyses of RNA derived from bovine and human gd T cells, transcripts encoding Nod2 were repeatedly amplified. Nod2 is the intracellular receptor for muramyl dipeptide (MDP), a subunit of PGN, functions in regulating innate activities, and was thought to be expressed primarily in APCs. Given our repeated detection of Nod2 transcripts in gd T cells, the specific direct response of gd T cells to MDP was analyzed by microarray, real time PCR, proteome array and in a functional priming assay. The results indicate a subtle activation in response to MDP akin to priming, and suggest a unique mechanism for differential gene expression. Keywords: Comparison of genes expressed after stimulation of bovine gd T cells with either PBS or MDP