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It has recently been shown that nucleosome distribution,histone modifications and RNA polymerase II (Pol II) occupancy show preferential association with exons (exon-intron marking")� View Publication

Persistent pulmonary infection with Cryptococcus neoformans in C57BL/6 mice results in chronic inflammation that is characterized by an injurious Th2 immune response. In this study,we performed a comparative analysis of cryptococcal infection in wild-type versus CD40-deficient mice (in a C57BL/6 genetic background) to define two important roles of CD40 in the modulation of fungal clearance as well as Th2-mediated immunopathology. First,CD40 promoted microanatomic containment of the organism within the lung tissue. This protective effect was associated with: i) a late reduction in fungal burden within the lung; ii) a late accumulation of lung leukocytes,including macrophages,CD4+ T cells,and CD8+ T cells; iii) both early and late production of tumor necrosis factor-α and interferon-γ by lung leukocytes; and iv) early IFN-γ production at the site of T cell priming in the regional lymph nodes. In the absence of CD40,systemic cryptococcal dissemination was increased,and mice died of central nervous system infection. Second,CD40 promoted pathological changes in the airways,including intraluminal mucus production and subepithelial collagen deposition,but did not alter eosinophil recruitment or the alternative activation of lung macrophages. Collectively,these results demonstrate that CD40 helps limit progressive cryptococcal growth in the lung and protects against lethal central nervous system dissemination. CD40 also promotes some,but not all,elements of Th2-mediated immunopathology in response to persistent fungal infection in the lung. View Publication

CCR7 binds to its cognate ligand,CCL21,to mediate the migration of circulating naive T lymphocytes to the lymph nodes. T lymphocytes can bind to fibronectin,a constituent of lymph nodes,via their β1 integrins,which is a primary mechanism of T lymphocyte migration; however,the signaling pathways involved are unclear. We report that rapid (within 2 min) and transient phosphorylation of ERK1/2 is required for T cell migration on fibronectin in response to CCL21. Conversely,prevention of ERK1/2 phosphorylation by inhibition of its kinase,MAPK/MEK,prevented T lymphocyte migration. Previous studies have suggested that phospholipase Cγ1 (PLCγ1) can mediate phosphorylation of ERK1/2,which is required for β1 integrin activation. Paradoxically,we found that inhibition of PLCγ1 phosphorylation by the general PLC inhibitor U73122 was associated with a delayed and reduced phosphorylation of ERK1/2 and reduced migration of T lymphocytes on fibronectin. To further characterize the relationship between ERK1/2 and PLCγ1,we reduced PLCγ1 levels by 85% using shRNA and observed a reduced phosphorylation of ERK1/2 and a significant loss of CCR7-mediated migration of T lymphocytes on fibronectin. In addition,we found that inhibition of ERK1/2 phosphorylation by U0126 resulted in a decreased phosphorylation of PLCγ1,suggesting a feedback loop between ERK1/2 and PLCγ1. Overall,these results suggest that the CCR7 signaling pathway leading to T lymphocyte migration on fibronectin is a β1 integrin-dependent pathway involving transient ERK1/2 phosphorylation,which is modulated by PLCγ1. View Publication

Cell-based therapies against HIV/AIDS have been gaining increased interest. Natural killer (NK) cells are a key component of the innate immune system with the ability to kill diverse tumor cells and virus-infected cells. While NK cells have been shown to play an important role in the control of HIV-1 replication,their functional activities are often compromised in HIV-1-infected individuals. We have previously demonstrated the derivation of NK cells from human embryonic stem cells (hESCs) with the ability to potently kill multiple types of tumor cells both in vitro and in vivo. We now demonstrate the derivation of functional NK cells from human induced pluripotent stem cells (iPSCs). More importantly,both hESC- and iPSC-derived NK cells are able to inhibit HIV-1 NL4-3 infection of CEM-GFP cells. Additional studies using HIV-1-infected human primary CD4(+) T cells illustrated that hESC- and iPSC-derived NK cells suppress HIV-1 infection by at least three distinct cellular mechanisms: killing of infected targets through direct lysis,antibody-dependent cellular cytotoxicity,and production of chemokines and cytokines. Our results establish the potential to utilize hESC- and iPSC-derived NK cells to better understand anti-HIV-1 immunity and provide a novel cellular immunotherapeutic approach to treat HIV/AIDS. View Publication

CD4(+)Vβ5(+) peripheral T cells in C57BL/6 mice respond to encounter with a peripherally expressed endogenous superantigen by undergoing either deletion or TCR revision. In this latter process,cells lose surface Vβ5 expression and undergo RAG-dependent rearrangement of endogenous TCRβ genes,driving surface expression of novel TCRs. Although postrevision CD4(+)Vβ5(-)TCRβ(+) T cells accumulate with age in Vβ5 transgenic mice and bear a diverse TCR Vβ repertoire,it is unknown whether they respond to homeostatic and antigenic stimuli and thus may benefit the host. We demonstrate in this study that postrevision cells are functional. These cells have a high rate of steady-state homeostatic proliferation in situ,and they undergo extensive MHC class II-dependent lymphopenia-induced proliferation. Importantly,postrevision cells do not proliferate in response to the tolerizing superantigen,implicating TCR revision as a mechanism of tolerance induction and demonstrating that TCR-dependent activation of postrevision cells is not driven by the transgene-encoded receptor. Postrevision cells proliferate extensively to commensal bacterial Ags and can generate I-A(b)-restricted responses to Ag by producing IFN-γ following Listeria monocytogenes challenge. These data show that rescued postrevision T cells are responsive to homeostatic signals and recognize self- and foreign peptides in the context of self-MHC and are thus useful to the host. View Publication

Recent findings indicate that NK cells are involved in cardiac repair following myocardial infarction. The aim of this study is to investigate the role NK cells in infarct angiogenesis and cardiac remodeling. In normal C57BL/6 mice,myelomonocytic inflammatory cells invaded infarcted heart within 24 h followed by a lymphoid/NK cell infiltrate by day 6,accompanied by substantial expression of IL-2,TNF-α,and CCL2. In contrast,NOD SCID mice had virtually no lymphoid cells infiltrating the heart and did not upregulate IL-2 levels. In vitro and in vivo,IL-2-activated NK cells promoted TNF-α-stimulated endothelial cell proliferation,enhanced angiogenesis and reduced fibrosis within the infarcted myocardium. Adoptive transfer of IL-2-activated NK cells to NOD SCID mice improved post-myocardial infarction angiogenesis. RNA silencing technology and neutralizing Abs demonstrated that this process involved α4β7 integrin/VCAM-1 and killer cell lectin-like receptor 1/N-cadherin-specific binding. In this study,we show that IL-2-activated NK cells reduce myocardial collagen deposition along with an increase in neovascularization following acute cardiac ischemia through specific interaction with endothelial cells. These data define a potential role of activated NK cells in cardiac angiogenesis and open new perspectives for the treatment of ischemic diseases. View Publication

Microglial cells play a dynamic role in the brain beyond their established function of immune surveillance. Activated microglia play key roles in neural development,neuroinflammation,neural repair and neurotoxicity. They are particularly important in several neurodegenerative diseases in which sustained microglial activation contributes to the progression of neurodegenerative processes. Consequently,understanding microglial function in CNS health and disease has become an area of active research in recent years. However,a significant obstacle to progress in this field has been the inherent difficulties in obtaining large amounts of primary microglial cells to routinely perform mechanistic studies and characterize signaling pathways regulating the dynamics of microglial activation. Herein,we describe a novel column-free magnetic separation protocol for high-yield isolation of primary microglia from mouse postnatal mixed glial cultures. The procedure is based on optimized culture conditions that enable high microglial cell densities in confluent mixed glial cultures followed by highly efficient recovery of pure microglia by magnetic separation. The novel column-free magnetic separation system utilizes tetrameric antibody complexes (TAC) with dual specificity for CD11b-PE labeled microglia and dextran magnetic nanoparticles. An FcR blocker (anti-CD16/32) is added to enhance the purity of the microglial separation by preventing non-specific labeling of other cell types. This procedure yields on average textgreater3×10�?� microglial cells per mouse pup,with a remarkable purity of 97% and recovery of around 87% of microglia from the mixed glial population. Importantly,the microglia obtained by this method are fully functional and respond like cells obtained by conventional isolation techniques. View Publication

Germinal center (GC) responses to T-dependent Ags require effective collaboration between Th cells,activated B cells,and follicular dendritic cells within a highly organized microenvironment. Studies using gene-targeted mice have highlighted nonredundant molecules that are key for initiating and maintaining the GC niche,including the molecules of the ICOS,CD40,and lymphotoxin (LT) pathways. Signaling through ICOS has multiple consequences,including cytokine production,expression of CD40L on Th cells,and differentiation into CXCR5(+) follicular Th cells,all of which are important in the GC reaction. We have therefore taken advantage of ICOS(-/-) mice to dissect which downstream elements are required to initiate the formation of GC. In the context of a T-dependent immune response,we found that GC B cells from ICOS(-/-) mice express lower levels of LTalphabeta compared with wild-type GC B cells in vivo,and stimulation of ICOS on T cells induces LTalphabeta on B cells in vitro. Administration of agonistic anti-LTbeta receptor Ab was unable to restore the GC response in ICOS(-/-) mice,suggesting that additional input from another pathway is required for optimal GC generation. In contrast,treatment with agonistic anti-CD40 Ab in vivo recovered GC networks and restored LTalphabeta expression on GC B cells in ICOS(-/-) mice,and this effect was dependent on LTbeta receptor signaling. Collectively,these data demonstrate that ICOS activation is a prerequisite for the up-regulation of LTalphabeta on GC B cells in vivo and provide a model for cooperation between ICOS,CD40,and LT pathways in the context of the GC response. View Publication

Understanding the cellular mechanisms that ensure an appropriate innate immune response against viral pathogens is an important challenge of biomedical research. In vitro studies have shown that natural killer (NK) cells purified from healthy donors can kill heterologous cell lines or autologous CD4+ T cell blasts exogenously infected with several strains of HIV-1. However,it is not known whether the deleterious effects of high HIV-1 viremia interferes with the NK cell-mediated cytolysis of autologous,endogenously HIV-1-infected CD4+ T cells. Here,we stimulate primary CD4+ T cells,purified ex vivo from HIV-1-infected viremic patients,with PHA and rIL2 (with or without rIL-7). This experimental procedure allows for the significant expansion and isolation of endogenously infected CD4+ T cell blasts detected by intracellular staining of p24 HIV-1 core antigen. We show that,subsequent to the selective down-modulation of MHC class-I (MHC-I) molecules,HIV-1-infected p24(pos) blasts become partially susceptible to lysis by rIL-2-activated NK cells,while uninfected p24(neg) blasts are spared from killing. This NK cell-mediated killing occurs mainly through the NKG2D activation pathway. However,the degree of NK cell cytolytic activity against autologous,endogenously HIV-1-infected CD4+ T cell blasts that down-modulate HLA-A and -B alleles and against heterologous MHC-I(neg) cell lines is particularly low. This phenomenon is associated with the defective surface expression and engagement of natural cytotoxicity receptors (NCRs) and with the high frequency of the anergic CD56(neg)/CD16(pos) subsets of highly dysfunctional NK cells from HIV-1-infected viremic patients. Collectively,our data demonstrate that the chronic viral replication of HIV-1 in infected individuals results in several phenotypic and functional aberrancies that interfere with the NK cell-mediated killing of autologous p24(pos) blasts derived from primary T cells. View Publication

OBJECTIVE: The T-cell receptor zeta (TCR zeta)-chain is a master sensor and regulator of lymphocyte responses. Loss of TCR zeta-chain expression has been documented during infectious and inflammatory diseases and defines a population of effector T cells (TCR zeta(dim) T cells) that migrate to inflamed tissues. We assessed the expression and functional correlates of circulating TCR zeta(dim) T cells in coronary artery disease. METHODS AND RESULTS: We examined the expression of TCR zeta-chain by flow cytometry in 140 subjects. Increased peripheral blood CD4(+) TCR zeta(dim) T cells were found in patients with acute coronary syndromes (ACS,n=66; median 5.3%,interquartile 2.6 to 9.1% of total CD4(+) T cells; Ptextless0.0001) compared to chronic stable angina (CSA,n=32; 1.6%; 1.0 to 4.1%) and controls (n=42; 1.5%; 0.5 to 2.9%). Such increase was significantly greater in ACS patients with elevated levels of C-reactive protein,and it persisted after the acute event. Moreover,TCR zeta(dim) cells were also more represented within CD8(+) T cell,NK,and CD4(+)CD28(null) T cell subsets in ACS compared to CSA and controls. Finally,CD4(+) and CD8(+) TCR zeta(dim) T cells isolated from ACS displayed an enhanced transendothelial migratory capacity. CONCLUSIONS: TCR zeta(dim) T cells,an effector T-cell subset with transendothelial migratory ability,are increased in ACS,and may be implicated in coronary instability. View Publication

The role of epitope-specific TCR repertoire diversity in the control of HIV-1 viremia is unknown. Further analysis at the clonotype level is important for understanding the structural aspects of the HIV-1 specific repertoire that directly relate to CTL function and ability to suppress viral replication. In this study,we performed in-depth analysis of T cell clonotypes directed against a dominantly recognized HLA B57-restricted epitope (KAFSPEVIPMF; KF11) and identified common usage of the TCR beta-chain TRBV7 in eight of nine HLA B57 subjects examined,regardless of HLA B57 subtype. Despite this convergent TCR gene usage,structural and functional assays demonstrated no substantial difference in functional or structural avidity between TRBV7 and non-TRBV7 clonotypes and this epitopic peptide. In a subject where TRBV7-usage did not confer cross-reactivity against the dominant autologous sequence variant,another circulating TCR clonotype was able to preferentially recognize the variant peptide. These data demonstrate that despite selective recruitment of TCR for a conserved epitope over the course of chronic HIV-1 infection,TCR repertoire diversity may benefit the host through the ability to recognize circulating epitope variants. View Publication