搜索结果: 'sepmate'

Immunological tolerance removes or inactivates self-reactive B cells,including those that also recognize cross-reactive foreign antigens. Whereas a few microbial pathogens exploit these holes" in the B cell repertoire by mimicking host antigens to evade immune surveillance the extent to which tolerance reduces the B cell repertoire to foreign antigens is unknown. Here we use single-cell cultures to determine the repertoires of human B cell antigen receptors (BCRs) before (transitional B cells) and after (mature B cells) the second B cell tolerance checkpoint in both healthy donors and in patients with systemic lupus erythematosus (SLE) . In healthy donors the majority ({\~{}}70{\%}) of transitional B cells that recognize foreign antigens also bind human self-antigens (foreign+self) and peripheral tolerance halves the frequency of foreign+self-reactive mature B cells. In contrast in SLE patients who are defective in the second tolerance checkpoint frequencies of foreign+self-reactive B cells remain unchanged during maturation of transitional to mature B cells. Patterns of foreign+self-reactivity among mature B cells from healthy donors differ from those of SLE patients. We propose that immune tolerance significantly reduces the scope of the BCR repertoire to microbial pathogens and that cross-reactivity between foreign and self epitopes may be more common than previously appreciated." View Publication

Dengue virus (DENV) infection can result in severe complications. However,the understanding of the molecular correlates of severity is limited,partly due to difficulties in defining the peripheral blood mononuclear cells (PBMCs) that contain DENV RNA in vivo. Accordingly,there are currently no biomarkers predictive of progression to severe dengue (SD). Bulk transcriptomics data are difficult to interpret because blood consists of multiple cell types that may react differently to infection. Here,we applied virus-inclusive single-cell RNA-seq approach (viscRNA-Seq) to profile transcriptomes of thousands of single PBMCs derived early in the course of disease from six dengue patients and four healthy controls and to characterize distinct leukocyte subtypes that harbor viral RNA (vRNA). Multiple IFN response genes,particularly MX2 in naive B cells and CD163 in CD14+ CD16+ monocytes,were up-regulated in a cell-specific manner before progression to SD. The majority of vRNA-containing cells in the blood of two patients who progressed to SD were naive IgM B cells expressing the CD69 and CXCR4 receptors and various antiviral genes,followed by monocytes. Bystander,non-vRNA-containing B cells also demonstrated immune activation,and IgG1 plasmablasts from two patients exhibited clonal expansions. Lastly,assembly of the DENV genome sequence revealed diversity at unexpected sites. This study presents a multifaceted molecular elucidation of natural dengue infection in humans with implications for any tissue and viral infection and proposes candidate biomarkers for prediction of SD. View Publication

Toxic shock syndrome (TSS) is caused by staphylococcal and streptococcal superantigens (SAgs) that provoke a swift hyperinflammatory response typified by a cytokine storm. The precipitous decline in the host's clinical status and the lack of targeted therapies for TSS emphasize the need to identify key players of the storm's initial wave. Using a humanized mouse model of TSS and human cells,we herein demonstrate that SAgs elicit in vitro and in vivo IL-17A responses within hours. SAg-triggered human IL-17A production was characterized by remarkably high mRNA stability for this cytokine. A distinct subpopulation of CD4+ effector memory T (TEM) cells that secrete IL-17A,but not IFN-$\gamma$,was responsible for early IL-17A production. We found mouse TEM-17" cells to be enriched within the intestinal epithelium and among lamina propria lymphocytes. Furthermore interfering with IL-17A receptor signaling in human PBMCs attenuated the expression of numerous inflammatory mediators implicated in the TSS-associated cytokine storm. IL-17A receptor blockade also abrogated the secondary effect of SAg-stimulated PBMCs on human dermal fibroblasts as judged by C/EBP $\delta$ expression. Finally the early IL-17A response to SAgs was pathogenic because in vivo neutralization of IL-17A in humanized mice ameliorated hepatic and intestinal damage and reduced mortality. Together our findings identify CD4+ TEM cells as a key effector of TSS and reveal a novel role for IL-17A in TSS immunopathogenesis. Our work thus elucidates a pathogenic as opposed to protective role for IL-17A during Gram-positive bacterial infections. Accordingly the IL-17-IL-17R axis may provide an attractive target for the management of SAg-mediated illnesses." View Publication

The Glioblastoma (GBM) immune microenvironment plays a critical role in tumor development,progression,and prognosis. A comprehensive understanding of the intricate milieu and its interactions remains unclear,and single-cell analysis is crucially needed. Leveraging mass cytometry (CyTOF),we analyzed immunocytes from 13 initial and three recurrent GBM samples and their matched peripheral blood mononuclear cells (pPBMCs). Using a panel of 30 markers,we provide a high-dimensional view of the complex GBM immune microenvironment. Hematoxylin and eosin staining and polychromatic immunofluorescence were used for verification of the key findings. In the initial and recurrent GBMs,glioma-associated microglia/macrophages (GAMs) constituted 59.05 and 27.87{\%} of the immunocytes,respectively; programmed cell death-ligand 1 (PD-L1),T cell immunoglobulin domain and mucin domain-3 (TIM-3),lymphocyte activation gene-3 (LAG-3),interleukin-10 (IL-10) and transforming growth factor-$\beta$ (TGF$\beta$) demonstrated different expression levels in the GAMs among the patients. GAMs could be subdivided into different subgroups with different phenotypes. Both the exhausted T cell and regulatory T (Treg) cell percentages were significantly higher in tumors than in pPBMCs. The natural killer (NK) cells that infiltrated into the tumor lesions expressed higher levels of CXC chemokine receptor 3 (CXCR3),as these cells expressed lower levels of interferon-$\gamma$ (IFN$\gamma$). The immune microenvironment in the initial and recurrent GBMs displayed similar suppressive changes. Our study confirmed that GAMs,as the dominant infiltrating immunocytes,present great inter- and intra-tumoral heterogeneity and that GAMs,increased exhausted T cells,infiltrating Tregs,and nonfunctional NK cells contribute to local immune suppressive characteristics. Recurrent GBMs share similar immune signatures with the initial GBMs except the proportion of GAMs decreases. View Publication

COVID-19 pathogenesis is associated with an exaggerated immune response. However,the specific cellular mediators and inflammatory components driving diverse clinical disease outcomes remain poorly understood. We undertook longitudinal immune profiling on both whole blood and peripheral blood mononuclear cells (PBMCs) of hospitalized patients during the peak of the COVID-19 pandemic in the UK. Here,we report key immune signatures present shortly after hospital admission that were associated with the severity of COVID-19. Immune signatures were related to shifts in neutrophil to T cell ratio,elevated serum IL-6,MCP-1 and IP-10,and most strikingly,modulation of CD14+ monocyte phenotype and function. Modified features of CD14+ monocytes included poor induction of the prostaglandin-producing enzyme,COX-2,as well as enhanced expression of the cell cycle marker Ki-67. Longitudinal analysis revealed reversion of some immune features back to the healthy median level in patients with a good eventual outcome. These findings identify previously unappreciated alterations in the innate immune compartment of COVID-19 patients and lend support to the idea that therapeutic strategies targeting release of myeloid cells from bone marrow should be considered in this disease. Moreover,they demonstrate that features of an exaggerated immune response are present early after hospital admission suggesting immune-modulating therapies would be most beneficial at early timepoints. View Publication

There is increasing evidence that coronavirus disease 2019 (COVID-19) produces more severe symptoms and higher mortality among men than among women1-5. However,whether immune responses against severe acute respiratory syndrome coronavirus (SARS-CoV-2) differ between sexes,and whether such differences correlate with the sex difference in the disease course of COVID-19,is currently unknown. Here we examined sex differences in viral loads,SARS-CoV-2-specific antibody titres,plasma cytokines and blood-cell phenotyping in patients with moderate COVID-19 who had not received immunomodulatory medications. Male patients had higher plasma levels of innate immune cytokines such as IL-8 and IL-18 along with more robust induction of non-classical monocytes. By contrast,female patients had more robust T cell activation than male patients during SARS-CoV-2 infection. Notably,we found that a poor T cell response negatively correlated with patients' age and was associated with worse disease outcome in male patients,but not in female patients. By contrast,higher levels of innate immune cytokines were associated with worse disease progression in female patients,but not in male patients. These findings provide a possible explanation for the observed sex biases in COVID-19,and provide an important basis for the development of a sex-based approach to the treatment and care of male and female patients with COVID-19. View Publication