Project description:In the epidermis, CCR4, CCR6, CCL20 and CCL27 were higher in ATLL than in MF.

Project description:Background: Recently, Tregs expressing the Th17 characteristic transcription factor RORγt were identified (biTregs). Both, pro- and anti-inflammatory functions have been described and the sum effect of biTreg deficiency in inflammation remains unknown. Furthermore, it is unclear, whether biTregs are specialized for the control of a defined type of immune response, as in particular Th2 or Th17 immunity. Methods: FACsorted CD4+ T-cells from fluorescence reporter mice, containing or lacking biTregs, were transferred into RAG1-/- recipients and the nephrotoxic nephritis model of glomerulonephritis was studied. Interactions of biTregs with various leukocyte populations were assessed by multicolor immunofluorescence. Furthermore, biTregs were compared to other Treg subtypes including suppression assays and RNAseq analyses. Finally, the role of the CCR6/CCL20 axis for biTreg biology was characterized. Results: Lack of endogenous biTregs resulted in aggravation of glomerulonephritis, demonstrating net immunosuppressive functions. However, contrary to our hypothesis, biTreg deficiency did not result in selectively overshooting Th2 or Th17 responses. Comprehensive analysis instead revealed a unique functional and transcriptional biTreg profile, including high production of IL-10 and dependency on IL-6R, cMAF and IKZF3 activation. Interestingly, we found that expression of the chemokine receptor CCR6 marked a particularly activated biTreg subset, whose absence significantly worsened glomerulonephritis. Unexpectedly, we found that signaling via the CCR6/CCL20 axis mediates biTreg expansion, rather than trafficking. Our data indicate net immunosuppressive effects of endogenous biTregs, with no preference for regulation of Th2 or Th17 responses. Surprisingly, signaling via the Conclusion: CCR6/CCL20 axis was integral for biTreg expansion and activation, which offers novel therapeutic options.

Project description:The experiment aims to identify mRNAs regulated in response to RelA overall aim: elucidate the role of CCL20 mediated immune cell recruitment in NF-[gamma]B mediated TRAIL resistance of pancreatic cancer

Project description:Defining the immunological landscape of human tissue is an important area of research, but challenges include the impact of tissue disaggregation on cell phenotypes and the low abundance of immune cells in many tissues. Here, we describe methods to troubleshoot and standardize Cellular Indexing of Transcriptomes and Epitopes by sequencing (CITE-seq) for studies involving enzymatic digestion of human tissue. We tested epitope susceptibility of 92 antibodies commonly used to differentiate immune lineages and cell states on human peripheral blood mononuclear cells following treatment with an enzymatic digestion cocktail used to isolate islets. We observed CD4, CD8a, CD25, CD27, CD120b, CCR4, CCR6, and PD1 display significant sensitivity to enzymatic treatment, effects that often could not be overcome with alternate antibodies. Comparison of flow cytometry-based CITE-seq antibody titrations and sequencing data supports that for the majority of antibodies, flow cytometry accurately predicts optimal antibody concentrations for CITE-seq. Comparison by CITE-seq of immune cells in enzymatically digested islet tissue and donor- matched spleen not treated with enzymes revealed little digestion-induced epitope cleavage, suggesting increased sensitivity of CITEseq and/or that the islet structure may protect resident immune cells from enzymes. Within islets, CITEseq identified immune cells difficult to identify by transcriptional signatures alone, such as distinct tissue-resident T cell subsets, mast cells, and innate lymphoid cells (ILCs). Collectively this study identifies strategies for the rational design and testing of CITE-seq antibodies for single-cell studies of immune cells within islets and other tissues.

Project description:Chronic pancreatitis (CP) is a pathogenically complex fibro-inflammatory disorder of the pancreas. Our understanding of CP pathogenesis is partly limited by the incomplete characterization of pancreatic cell types. Here, we performed single-cell RNA sequencing on 3,386 cells from the pancreas of one control mouse and mice with caerulein-induced CP. These data provides a preliminary description of the single-cell transcriptome profiles of mouse pancreata and accurately demonstrates the characteristics of pancreatic ductal cells in CP.

Project description:Antiretroviral therapy (ART) has the potency of suppressing systemic viral replication and spread. Still, persistent human immunodeficiency virus type-1 (HIV) survive for decades during treatment in latently infected cells, making up the latent viral reservoir. This reservoir is believed to reside in subtypes of memory T cells and cell from monocytic lineages, but some functional and naïve T cells have also shown to carry latent HIV. Eradication of latently infected cells, in terms of a sterilizing cure, have proven to be a hurdle since there is a heterogeneity in mechanisms governing latency and integration site into the genome. Over the course of suppressive therapy, persisting HIV, sustained by low levels of viral replication, homeostatic proliferation, and cell to cell transmission, is a driver of chronic immune activation in the body. For the immune system to elicit an appropriate inflammatory response it is dependent on secretion of inflammatory molecules, such as chemokines and cytokines. Most chemokines are pro-inflammatory factors that facilitate leukocyte recruitment to site of inflammation where they can exert their regulatory role in response to pathological and physiological stressors e.g., infection, inflammation, and tissue damage. Alterations in chemokine receptor expression and chemokine levels modulates the activity of the immune response and in HIV infection contribute to chronic inflammation and mortality. Therefore, people living with HIV on suppressive therapy (PLWH) are at higher risk of age associated co-morbidities due to elevated immune activation and chronic inflammation induced by ART toxicities, microbiome dysbiosis leading to microbial translocation and dysregulated immune cell activation and function. As a result, the causative HIV pathogenesis and immune dysfunction further chronic immune activation. This result in a vicious cycle as immune activation is driver of HIV disease progression and inflammaeging leading to earlier onset of age-related diseases. An alternative approach in cure strategies is a functional cure for HIV aiming at suppressing viral replication without ART. A model for functional cure studies are elite controllers (EC). EC constitute a small fraction of HIV+ individuals (<0.5%) exhibiting the unique characteristic of natural control of viral replication in absence of ART. However, there is a population-based heterogeneity of how these individuals naturally supress viral replication. This heterogeneity is caused by viral genetic factors, variability of integration site in the human genome, together with host response against the pathogen and immunological factors. In terms of immune cell activation, studies have shown how EC maintain lower levels of inflammatory markers compared to PLWH. Contradictory, some studies have shown elevated inflammatory markers in EC which could be attributed to the heterogeneity of the EC group or as others have shown it is a consequence of loss of spontaneous control of HIV. Therefore, as no consensus exist further studies comparing variability of immune function between EC and ART can aid in understanding the mechanisms of natural control of HIV. In our recent study (Sperk et al 2021, iScience) we hypothesised that modulated CCR6/CCL20 chemokine axis and CCR2-CCL7-CCL2 signalling can play a protective role in the EC phenotype. Downregulation of CCR2 and CCR6 receptors in lymphocytes and higher plasma abundance of CCL4, CCL7 and CCL20 in EC compared to the HIV-negative controls can provide natural resistance to HIV-infection. In the present study, we further extended our analysis to evaluate the expression profile dynamics of key chemokine receptors, CCR2, CCR3, CCR5 and CCR6, in successfully treated PLWH. We compared well treated PLWH with HIV-1 elite controllers and its association with HIV-1 persistence. Furthermore, cell populations of interest were isolated for liquid chromatography mass spectrometry (LC-MS/MS) based untargeted proteomics analysis to evaluate specific characteristics regulating these cell populations and their role in HIV persistence. Our study provides important understanding of the chemokine receptor dynamics and its role in HIV persistence that differentiate elite controllers from long term treated PLWH.

Project description:In the epidermis, CCR4, CCR6, CCL20 and CCL27 were higher in ATLL than in MF. We obtained the epidermal samples from MF (n=5) and ATLL (n=5) with the aid of laser microdissection. Complementary RNA amplification were used for gene expression profiling by microarray analysis. We compaired MF with ATLL in epidermis. We obtained the epidermal dermal samples from MF (n=3) and ATLL (n=3) with the aid of laser microdissection. Complementary RNA amplification were used for gene expression profiling by microarray analysis. We compaired MF with ATLL in dermis.

Project description:Global microRNA expression profiling of microdissected pancreatic tissues were collected using Agilent miRNA microarrays (G4470B, Sanger 10.1) carrying 723 individual human miRNA probes. Four different sources of RNA were analyzed: microdissected normal pancreatic ductal cells (ND, n=4),microdissected acinar cells (AC, n=4), macrodissected chronic pancreatitis (CP, n=5) and micordissected xenograft tissues derived from primary pancreatic ductal adenocarcinomas (PDAC, n=5). Four condition (AZ, ND, PDAC, CP), each condition is represented by 4 to 5 biological replicates

Project description:Autism is a common neurodevelopmental syndrome. Numerous rare genetic etiologies are reported; most cases are idiopathic. To uncover important gene dysregulation in autism, we analyzed carefully selected idiopathic autistic and control cerebellar and BA19 (occipital) brain tissues using high-resolution whole genome gene expression and DNA methylation microarrays. No changes in DNA methylation were identified in autistic brain but gene expression abnormalities in two areas of metabolism were apparent: down-regulation of genes of mitochondrial oxidative phosphorylation and of protein translation. We also found associations between specific behavioral domains of autism and specific brain gene expression modules related to myelin/myelination, inflammation/immune response and purinergic signaling. This work highlights two largely unrecognized molecular pathophysiological themes in autism and suggests differing molecular bases for autism behavioral endophenotypes.

Project description:Autism is a common neurodevelopmental syndrome. Numerous rare genetic etiologies are reported; most cases are idiopathic. To uncover important gene dysregulation in autism we analyzed carefully selected idiopathic autistic and control cerebellar and BA19 (occipital) brain tissues using high resolution whole genome gene expression and DNA methylation microarrays. No changes in DNA methylation were identified in autistic brain but gene expression abnormalities in two areas of metabolism were apparent: down-regulation of genes of mitochondrial oxidative phosphorylation and of protein translation. We also found associations between specific behavioral domains of autism and specific brain gene expression modules related to myelin/myelination, inflammation/immune response and purinergic signaling. This work highlights two largely unrecognized molecular pathophysiological themes in autism and suggests differing molecular bases for autism behavioral endophenotypes.