技术资料

The viral infection of higher vertebrates elicits potent innate and adaptive host immunity. However,an excessive or inappropriate immune response also may lead to host pathology that often is more severe than the direct effects of viral replication. Therefore,several mechanisms exist that regulate the magnitude and class of the immune response. Here,we have examined the potential involvement of regulatory T (Treg) cells in limiting pathology induced by influenza A virus (IAV) infection. Using lymphocyte-deficient mice as hosts,we showed that Treg cell reconstitution resulted in a significant delay in weight loss and prolonged survival following infection. The adoptively transferred Treg cells did not affect the high rate of IAV replication in the lungs of lymphocyte-deficient hosts,and therefore their disease-ameliorating effect was mediated through the suppression of innate immune pathology. Mechanistically,Treg cells reduced the accumulation and altered the distribution of monocytes/macrophages in the lungs of IAV-infected hosts. This reduction in lung monocytosis was associated with a specific delay in monocyte chemotactic protein-2 (MCP-2) induction in the infected lungs. Nevertheless,Treg cells failed to prevent the eventual development of severe disease in lymphocyte-deficient hosts,which likely was caused by the ongoing IAV replication. Indeed,using T-cell-deficient mice,which mounted a T-cell-independent B cell response to IAV,we further showed that the combination of virus-neutralizing antibodies and transferred Treg cells led to the complete prevention of clinical disease following IAV infection. Taken together,these results suggested that innate immune pathology and virus-induced pathology are the two main contributors to pathogenesis during IAV infection. View Publication

Among different cancer immunotherapy approaches,bispecific antibodies (BsAbs) are of great interest due to their ability to recruit immune cells to kill tumor cells directly. Various BsAbs against Her2 tumor cells have been proposed with potent cytotoxic activities. However,most of these formats require extensive processing to obtain heterodimeric bispecific antibodies. In this study,we describe a bispecific antibody,BiHC (bispecific Her2-CD3 antibody),constructed with a single-domain anti-Her2 and a single-chain Fv (variable fragment) of anti-CD3 in an IgG-like format. In contrast to most IgG-like BsAbs,the two arms in BiHC have different molecular weights,making it easier to separate hetero- or homodimers. BiHC can be expressed in Escherichia coli and purified via Protein A affinity chromatography. The purified BiHC can recruit T cells and induce specific cytotoxicity of Her2-expressing tumor cells in vitro. The BiHC can also efficiently inhibit the tumor growth in vivo. Thus,BiHC is a promising candidate for the treatment of Her2-positive cancers. View Publication

Precise control of Wnt signaling is necessary for immune system development. In this study,we detected severely impaired development of all lymphoid lineages in mice,resulting from an N-ethyl-N-nitrosourea-induced mutation in the limb region 1-like gene (Lmbr1l),which encodes a membrane-spanning protein with no previously described function in immunity. The interaction of LMBR1L with glycoprotein 78 (GP78) and ubiquitin-associated domain-containing protein 2 (UBAC2) attenuated Wnt signaling in lymphocytes by preventing the maturation of FZD6 and LRP6 through ubiquitination within the endoplasmic reticulum and by stabilizing destruction complex" proteins. LMBR1L-deficient T cells exhibited hallmarks of Wnt/beta-catenin activation and underwent apoptotic cell death in response to proliferative stimuli. LMBR1L has an essential function during lymphopoiesis and lymphoid activation acting as a negative regulator of the Wnt/beta-catenin pathway." View Publication

The upper respiratory tract is continuously exposed to a vast array of potentially pathogenic viruses and bacteria. Influenza A virus (IAV) has particular synergism with the commensal bacterium Streptococcus pneumoniae in this niche,and co-infection exacerbates pathogenicity and causes significant mortality. However,it is not known whether this synergism is associated with a direct interaction between the two pathogens. We have previously reported that co-administration of a whole-inactivated IAV vaccine (gamma-Flu) with a whole-inactivated pneumococcal vaccine (gamma-PN) enhances pneumococcal-specific responses. In this study,we show that mucosal co-administration of gamma-Flu and gamma-PN similarly augments IAV-specific immunity,particularly tissue-resident memory cell responses in the lung. In addition,our in vitro analysis revealed that S. pneumoniae directly interacts with both gamma-Flu and with live IAV,facilitating increased uptake by macrophages as well as increased infection of epithelial cells by IAV. These observations provide an additional explanation for the synergistic pathogenicity of IAV and S. pneumoniae,as well as heralding the prospect of exploiting the phenomenon to develop better vaccine strategies for both pathogens. View Publication

Circulating Tumor Cells (CTCs) represent an easy,repeatable and representative access to information regarding solid tumors. However,their detection remains difficult because of their paucity,their short half-life,and the lack of reliable surface biomarkers. Flow cytometry (FC) is a fast,sensitive and affordable technique,ideal for rare cells detection. Adapted to CTCs detection (i.e. extremely rare cells),most FC-based techniques require a time-consuming pre-enrichment step,followed by a 2-hours staining procedure,impeding on the efficiency of CTCs detection. We overcame these caveats and reduced the procedure to less than one hour,with minimal manipulation. First,cells were simultaneously fixed,permeabilized,then stained. Second,using low-speed FC acquisition conditions and two discriminators (cell size and pan-cytokeratin expression),we suppressed the pre-enrichment step. Applied to blood from donors with or without known malignant diseases,this protocol ensures a high recovery of the cells of interest independently of their epithelial-mesenchymal plasticity and can predict which samples are derived from cancer donors. This proof-of-concept study lays the bases of a sensitive tool to detect CTCs from a small amount of blood upstream of in-depth analyses. View Publication

Mucosal-associated invariant T (MAIT) cells exhibit different characteristics from those of TCRalpha7.2- conventional T cells. They play important roles in various inflammatory diseases,including rheumatoid arthritis and inflammatory bowel disease. MAIT cells express a single T cell receptor alpha chain,TCRalpha7.2 segment associated with Jalpha33 and CDR3 with fixed length,which recognizes bacteria-derived vitamin B metabolites. However,the characteristics of MAIT cells and TCRalpha7.2+ CD161- T cells have never been compared. Here,we performed RNA sequencing to compare the properties of MAIT cells,TCRalpha7.2- conventional T cells and TCRalpha7.2+ CD161- T cells. Genome-wide transcriptomes of MAIT cells,TCRalpha7.2- conventional T cells,and TCRalpha7.2+ CD161- T cells were compared and analyzed using causal network analysis. This is the first report comparing the transcriptomes of MAIT cells,TCRalpha7.2- conventional T cells and TCRalpha7.2+ CD161- T cells. We also identified the predominant signaling pathways of MAIT cells,which differed from those of TCRalpha7.2- conventional T cells and TCRalpha7.2+ CD161- T cells,through a gene set enrichment test and upstream regulator analysis and identified the genes responsible for the characteristic MAIT cell phenotypes. Our study advances the complete understanding of MAIT biology. View Publication