搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

The germinal center (GC) reaction in Peyer's patches (PP) requires continuous access to antigens,but how this is achieved is not known. Here we show that activated antigen-specific CCR6+CCR1+GL7- B cells make close contact with M cells in the subepithelial dome (SED). Using in situ photoactivation analysis of antigen-specific SED B cells,we find migration of cells towards the GC. Following antigen injection into ligated intestinal loops containing PPs,40{\%} of antigen-specific SED B cells bind antigen within 2 h,whereas unspecifc cells do not,indicating B cell-receptor involvment. Antigen-loading is not observed in M cell-deficient mice,but is unperturbed in mice depleted of classical dendritic cells (DC). Thus,we report a M cell-B cell antigen-specific transporting pathway in PP that is independent of DC. We propose that this antigen transporting pathway has a critical role in gut IgA responses,and should be taken into account when developing mucosal vaccines. View Publication

Acute coronary syndromes (ACS) are precipitated by a rupture of the atherosclerotic plaque,often at the site of T cell and macrophage infiltration. Here,we show that plaque-infiltrating CD4 T cells effectively kill vascular smooth muscle cells (VSMC). VSMCs sensitive to T cell-mediated killing express the death receptor DR5 (TNF-related apoptosis-inducing ligand [TRAIL] receptor 2),and anti-TRAIL and anti-DR5 antibodies block T cell-mediated apoptosis. CD4 T cells that express TRAIL upon stimulation are expanded in patients with ACS and more effectively induce VSMC apoptosis. Adoptive transfer of plaque-derived CD4 T cells into immunodeficient mice that are engrafted with human atherosclerotic plaque results in apoptosis of VSMCs,which was prevented by coadministration of anti-TRAIL antibody. These data identify that the death pathway is triggered by TRAIL-producing CD4 T cells as a direct mechanism of VSMC apoptosis,a process which may lead to plaque destabilization. View Publication

The MUC1 transmembrane mucin is expressed on the surface of activated human T cells; however,the physiologic signals responsible for the regulation of MUC1 in T cells are not known. The present studies demonstrate that IL-7,but not IL-2 or IL-4,markedly induces MUC1 expression on CD3+ T cells. MUC1 was also up-regulated by IL-15,but to a lesser extent than that found with IL-7. The results show that IL-7 up-regulates MUC1 on CD4+,CD8+,CD25+,CD69+,naive CD45RA+,and memory CD45RO+ T cells. In concert with induction of MUC1 expression by IL-7,activated dendritic cells (DC) that produce IL-7 up-regulate MUC1 on allogeneic CD3+ T cells. DC also induce MUC1 expression on autologous CD3+ T cells in the presence of recall Ag. Moreover,DC-induced MUC1 expression on T cells is blocked by a neutralizing anti-IL-7 Ab. The results also demonstrate that DC induce polarization of MUC1 on T cells at sites opposing the DC-T cell synapse. These findings indicate that DC-mediated activation of Ag-specific T cells is associated with induction and polarization of MUC1 expression by an IL-7-dependent mechanism. 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

Systemic lupus erythematosus (SLE) is an autoimmune/inflammatory disease characterized by autoantibody production and abnormal T cells that infiltrate tissues through not well-known mechanisms. We report that SLE T lymphocytes display increased levels of CD44,ezrin,radixin,and moesin (ERM) phosphorylation,stronger actin polymerization,higher polar cap formation,and enhanced adhesion and chemotactic migration compared with T cells from patients with rheumatoid arthritis and normal individuals. Silencing of CD44 by CD44 small interfering RNA in SLE T cells inhibited significantly their ability to adhere and migrate as did treatment with Rho kinase and actin polymerization inhibitors. Forced expression of T567D-ezrin,a phosphorylation-mimic form,enhanced remarkably the adhesion and migration rate of normal T cells. Anti-CD3/TCR autoantibodies present in SLE sera caused increased ERM phosphorylation,adhesion,and migration in normal T cells. pERM and CD44 are highly expressed in T cells infiltrating in the kidneys of patients with lupus nephritis. These data prove that increased ERM phosphorylation represents a key molecular abnormality that guides T cell adhesion and migration in SLE patients. View Publication

Preferential activation of regulatory T (Treg) cells limits autoimmune tissue damage during chronic immune responses but can also facilitate tumor growth. Here,we show that tissue-produced inflammatory mediators prime maturing dendritic cells (DC) for the differential ability of attracting anti-inflammatory Treg cells. Our data show that prostaglandin E(2) (PGE(2)),a factor overproduced in chronic inflammation and cancer,induces stable Treg-attracting properties in maturing DC,mediated by CCL22. The elevated production of CCL22 by PGE(2)-matured DC persists after the removal of PGE(2) and is further elevated after secondary stimulation of DC in a neutral environment. This PGE(2)-induced overproduction of CCL22 and the resulting attraction of FOXP3(+) Tregs are counteracted by IFN alpha,a mediator of acute inflammation,which also restores the ability of the PGE(2)-exposed DC to secrete the Th1-attracting chemokines: CXCL9,CXCL10,CXCL11,and CCL5. In accordance with these observations,different DCs clinically used as cancer vaccines show different Treg-recruiting abilities,with PGE(2)-matured DC,but not type 1-polarized DC,generated in the presence of type I and type II IFNs,showing high Treg-attracting activity. The current data,showing that the ability of mature DC to interact with Treg cells is predetermined at the stage of DC maturation,pave the way to preferentially target the regulatory versus proinflammatory T cells in autoimmunity and transplantation,as opposed to intracellular infections and cancer. View Publication

Enterovirus type 71 (EV71) and coxsackievirus A 16 (CA16) are the major pathogens of human hand,foot,and mouth disease (HFMD). In our previous study,intramuscular immunization with the inactivated EV71 vaccine elicited effective immunity,while immunization with the inactivated CA16 vaccine did not. In this report,we focused on innate immune responses elicited by inactivated EV71 and CA16 antigens administered intradermally or intramuscularly. The distributions of the EV71 and CA16 antigens administered intradermally or intramuscularly were not obviously different,but the antigens were detected for a shorter period of time when administered intradermally. The expression levels of NF-kappaB pathway signaling molecules,which were identified as being capable of activating DCs,ILCs,and T cells,were higher in the intradermal group than in the intramuscular group. Antibodies for the EV71 and CA16 antigens colocalized with ILCs and DCs in skin and muscle tissues under fluorescence microscopy. Interestingly,ILC colocalization decreased over time,while DC colocalization increased over time. ELISpot analysis showed that coordination between DCs and ILCs contributed to successful adaptive immunity against vaccine antigens in the skin. EV71 and/or CA16 antigen immunization via the intradermal route was more capable of significantly increasing neutralizing antibody titers and activating specific T cell responses than immunization via the intramuscular route. Furthermore,neonatal mice born to mothers immunized with the EV71 and CA16 antigens were 100{\%} protected against wild-type EV71 or CA16 viral challenge. Together,our results provide new insights into the development of vaccines for HFMD. View Publication