Project description:Background and Aims: Viral clearance during acute hepatitis C virus (HCV) infection is associated with the induction of potent antiviral T-cell responses. Since dendritic cells (DC) are essential in the activation of primary T-cell responses our goal was to analyze gene expression in DC from patients during acute HCV infection. Methods: By using microarrays, gene expression was compared in resting and activated peripheral blood plasmacytoid (pDC) and myeloid (mDC) DC from acute HCV resolving patients (AR) and from those who become chronically infected (ANR), as well as in HCV chronically infected patients (CHR) and healthy seronegative individuals (CTRL). Results: For pDC, a high number of upregulated genes related to different functions and processes was found in AR patients, irrespective of DC stimulation. However, for mDC, most evident differences were detected after DC stimulation, again corresponding to upregulated genes in AR patients. Differences between AR and ANR were also observed when comparing their DC with those from CHR patients and CTRL individuals. Most differences corresponded to metabolism-associated genes, with upregulation in AR patients of genes belonging to pathways associated with DC activation and cytokine responses. Conclusion: Our results show that upregulation of relevant genes in DC during acute HCV infection may determine viral clearance, suggesting that dysfunctional DC may be responsible for the lack of efficient T-cell responses which lead to chronic HCV infection.

Project description:BACKGROUND: Combination antiretroviral therapy (cART) is able to control HIV-1 viral replication, however long-lived latent infection in resting memory CD4+ T-cells persist. The mechanisms for establishment and maintenance of latent infection in resting memory CD4+ T-cells remain unclear. Previously we have shown that HIV-1 infection of resting CD4+ T-cells co-cultured with CD11c+ myeloid dendritic cells (mDC) produced a population of non-proliferating T-cells with latent infection. Here we asked whether different antigen presenting cells (APC), including subpopulations of DC and monocytes, were able to induce post-integration latent infection in resting CD4+ T-cells, and examined potential cell interactions that may be involved using RNA-seq. RESULTS: mDC (CD1c+), SLAN+ DC and CD14+ monocytes were most efficient in stimulating proliferation of CD4+ T-cells during syngeneic culture and in generating post-integration latent infection in non-proliferating CD4+ T-cells following HIV-1 infection of APC-T-cell co-cultures. In comparison, plasmacytoid DC (pDC) and B-cells did not induce latent infection in APC-T-cell co-cultures. We compared the RNA expression profiles of APC subpopulations that could and could not induce latency in non-proliferating CD4+ T-cells. Gene expression analysis, comparing the mDC, SLAN+ DC and CD14+ monocyte subpopulations to pDC identified 53 upregulated genes that encode proteins expressed on the plasma membrane that could signal to CD4+ T-cells via cell-cell interactions (32 genes), immune checkpoints (IC) (5 genes), T-cell activation (9 genes), regulation of apoptosis (5 genes), antigen presentation (1 gene) and through unknown ligands (1 gene). CONCLUSIONS: APC subpopulations from the myeloid lineage, specifically mDC subpopulations and CD14+ monocytes, were able to efficiently induce post-integration HIV-1 latency in non-proliferating CD4+ T-cells in vitro. Inhibition of key pathways involved in mDC-T-cell interactions and HIV-1 latency may provide novel targets to eliminate HIV latency. mRNA profiles of sorted, pure antigen presenting cells including, CD1c+ myleoid dendirtic cells (mDC), SLAN+ mDC, CD14+ monocytes and plasmacytoid DC (pDC), were generated using next generation sequencing in triplicate, using Illumina Illumina Hiseq 2000.

Project description:Dendritic cells (DC) localize throughout the body, where they sense and capture invading pathogens to induce protective immune responses. Hence, harnessing the biology of tissue-resident DC is crucial for the rational design of vaccines against pathogens. Herein, we characterized the transcriptomes of four antigen presenting cell (APC) subsets from the human vagina (vLC, vCD14- DC, vCD14+ DC, vMM-NM-&) and compared them to those of three skin DC (sDC) subsets and blood myeloid DC. We find that APC genomic fingerprints are significantly influenced by the tissue of origin as well as by individual APC subsets. Nonetheless, CD14+ APC from both vagina and skin are geared towards innate immunity and pro-inflammatory responses, whereas CD14- DC, particularly sLC, vLC, and vCD14- DC, display both Th2-inducing and regulatory phenotypes. We also identified vAPC subset-specific cellular and functional biomarkers that will guide the design of mucosal vaccines against sexually transmitted pathogens. Vaginal and skin tissues were obtained from female patients who underwent pelvic or cosmetic surgeries under protocols approved by the Institutional Review Board (IRB) of Baylor Research Institute (BRI). Patients were not infected with HIV, HCV or TB and did not display inflammation in the tissues. No other diagnosis information was available. Blood from healthy female volunteers was obtained under a protocol approved by the IRB of BRI. 87 total samples. 6 Blood mDC; 16 Dermal CD1c+CD14-; 10 Epidermal LC; 12 Vaginal CD1c+CD14-; 13 Vaginal CD1c+CD14+; 7 Vaginal HLADR- w/ 2 replicates (Vaginal HLADR-_VM610 and Vaginal HLADR-_VM611); 9Vaginal LC; 14 Vaginal Macrophage.

Project description:mDC and pDC exhibit distinct TLR expression pattern and differ in their responses to various TLR ligands. The goal of this study was to identify genes, that were differentally expressed between mDC and pDC as a means to determine how TLR signaling pathways operate. Suprisingly, expression of TLR-assoociated signaling proteins were found to be present at equivalent levels between mDC and pDC, despite differential expression of TLRs, and thus revealing insight into use of adaptor proteins that function as general regulators of TLR signaling pathways in both cell types. mDC and pDC were sorted from spleens of mice in 2 independent experiments: The first experiment included 2 replicates of pDC that were cultured in medium for 1h prior to RNA extraction and 1 replicate of mDC that were directly processed for RNA extraction after the sort. In a second experiment we obtained 2 more replicates of mDC that were processed for RNA extraction directly after the sort and run on a seperate microarray for gene expression analysis.

Project description:Talactoferrin alfa (TLF) is a unique recombinant version of human lactoferrin, an important immunomodulatory protein present in exocrine secretions and in the secondary granules of neutrophils. Talactoferrin has demonstrated anti-cancer activity in preclinical studies and in Phase III clinical trials in patients with Renal Cell Cancer and non-small cell lung cancer. We have shown that TLF induces the maturation of human DCs derived from monocytes, suggesting that the linkage of the innate and adaptive immunity through DC maturation is a key immune function mediated by TLF. In this study we used genome-wide expression analysis to explore the mechanisms by which TLF leads to the functional maturation of DC. We show that GMP level recombinant TLF activates human DCs in a Toll-like receptor (TLR) -2 and -4 dependent manner. Human peripheral blood mononuclear cells (PBMCs) were obtained from buffy coats of healthy donors. CD14+ cells were isolated from fresh PBMCs by positive immunoselection with magnetic beads. Immature dendritic cells (i-DC) from four donors were generated using granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-4. On day 6, cells were harvested in order to have iDC or mDC (conventionally matured DC) by addition of Tumor Necrosis Factor (TNF) -alfa and IL-1beta or TLF-DC (Talactoferrin matured DC) adding Food and Drug Administration-approved, GMP level recombinant TLF generated in eukaryotic cells. After 24 hour culture, cells were harvested and analyzed with Illumina arrays.

Project description:In Rheumatoid Arthritis, restoration of immune self-tolerance represents an unmet therapeutic need, since a significant proportion of RA patients show inadequate clinical response. Based on the previously described tolerogenic phenotype of pDCs in RA responding to anti-TNF agents, we aimed to explore the molecular mechanisms involved in the tolerogenic reprogramming of pDCs in RA.

Project description:We dissect HCV imprinting of B cell repertoires in patients with chronic disease. The persistent character of the oncogenic B cell repertoire generated by HCV may point to a chronically elevated lymphoma risk in these patients even years after HCV cure.

Project description:We dissect HCV imprinting of B cell repertoires in patients with chronic disease. The persistent character of the oncogenic B cell repertoire generated by HCV may point to a chronically elevated lymphoma risk in these patients even years after HCV cure.

Project description:Mesenchymal stromal cells-derived small extracellular vesicles (MSC-sEVs) have recently attracted considerable attention because of their therapeutic potential in various immune diseases. We previously reported that MSC-sEVs could exert immunomodulatory roles in allergic airway inflammation by regulating group 2 innate lymphoid cell (ILC2) and dendritic cell (DC) functions. Therefore, this study aimed to investigate the therapeutic effects of MSC-sEVs on mature DC (mDC)-ILC2 interplay in allergic rhinitis (AR). Here, we isolated MSC-sEVs from induced pluripotent stem cells (iPSC)-MSCs using anion-exchange chromatography for the generation of sEV-mDCs. sEV-mDCs were co-cultured with peripheral blood mononuclear cells (PBMCs) from patients with AR or purified ILC2s. The levels of IL-13 and GATA3 in ILC2s were examined by flow cytometry. Bulk RNA-sequence for mDCs and sEV-mDCs was employed to further probe the potential mechanisms, which were then validated in the co-culture systems.

Project description:Myeloid dendritic cells from WT, Irf3-/-xIrf7-/-, Irf3-/-xIrf5-/-xIrf7-/-, Mavs-/- (IPS1-/-)and Ifnar-/- mice were infected with West Nile virus to assess the contributions of specific signaling and transcription factors in initiating the antiviral response RPMI + rmGM-CSF purified bone marrow derived myeloid DC (mDC), mock and WNV infected with insect derived virus and RNA isolated at 24 hours post infection . Each genotype has matched mock and infected samples. n=6 for WT mock, WT infected, IFNAR mock, IFNAR infected, IRF3x7 infected; n=5 IRF3x7 infected; n=3 IRF3x5x7 mock, IRF3x5x7 infected, MAVS mock, MAVS infected. RNA was prepared using the Illumina bead station assay and hybridized to Illumina RefSeq-8 V2 BeadChips. Note: MAVS=IPS1