Project description:CXCR3, expressed mainly on activated T and NK cells, is implicated in a host of immunological conditions and can contribute either to disease resolution or pathology. We report the generation and characterization of a novel CXCR3 internal ribosome entry site bicistronic enhanced GFP reporter (CIBER) mouse in which enhanced GFP expression correlates with surface levels of CXCR3. Using CIBER mice, we identified two distinct populations of innate CD8(+) T cells based on constitutive expression of CXCR3. We demonstrate that CXCR3(+) innate CD8(+) T cells preferentially express higher levels of Ly6C and CD122, but lower levels of CCR9 compared with CXCR3(-) innate CD8(+) T cells. Furthermore, we show that CXCR3(+) innate CD8(+) T cells express higher transcript levels of antiapoptotic but lower levels of proapoptotic factors, respond more robustly to IL-2 and IL-15, and produce significantly more IFN-γ and granzyme B. Interestingly, CXCR3(+) innate CD8(+) T cells do not respond to IL-12 or IL-18 alone, but produce significant amounts of IFN-γ on stimulation with a combination of these cytokines. Taken together, these findings demonstrate that CXCR3(+) and CXCR3(-) innate CD8(+) T cells are phenotypically and functionally distinct. These newly generated CIBER mice provide a novel tool for studying the role of CXCR3 and CXCR3-expressing cells in vivo.

Project description:BackgroundThe PD1/PD-L1 pathway contributes to the pathogenesis of human immunodeficiency virus (HIV)/simian immunodeficiency virus (SIV) infection, and blockade of this pathway may have potential to restore immune function and promote viral control or elimination. In this study, we combined a checkpoint inhibitor anti-PD-L1 (Avelumab) and recombinant human interleukin-15 (rhIL-15) in SIV-infected rhesus macaques (RM).MethodsThe rhIL-15 was administered as continuous infusion in 2 cycles of 10 days in the context of weekly administration of anti-PD-L1 (Avelumab) in SIV-infected RM receiving combination antiretroviral therapy (cART). Safety, immunological parameters, and viral loads were monitored during the study.ResultsAdministration of rhIL-15/anti-PD-L1 was safe and well tolerated. Treatment resulted in transient increases in proliferating (Ki67+) natural killer and CD8 T cells. In addition, treatment expanded a CXCR3+PD1-/low CD8 T-cell subset with the ability to secrete cytokines. Despite these effects, no changes in plasma viremia were observed after cART interruption.ConclusionsExpansion of the CXCR3+PD1-/low CD8 T-cell subset with functional capacity and potential to traffic to sites of viral reservoirs in SIV-infected rhesus macaques had no demonstrable effect on plasma viremia after cART interruption.

Project description:To prevent damage to the host or its commensal microbiota, epithelial tissues must match the intensity of the immune response to the severity of a biological threat. Toll-like receptors allow epithelial cells to identify microbe associated molecular patterns. However, the mechanisms that mitigate biological noise in single cells to ensure quantitatively appropriate responses remain unclear. Here we address this question using single cell and single molecule approaches in mammary epithelial cells and primary organoids. We find that epithelial tissues respond to bacterial microbe associated molecular patterns by activating a subset of cells in an all-or-nothing (i.e. digital) manner. The maximum fraction of responsive cells is regulated by a bimodal epigenetic switch that licenses the TLR2 promoter for transcription across multiple generations. This mechanism confers a flexible memory of inflammatory events as well as unique spatio-temporal control of epithelial tissue-level immune responses. We propose that epigenetic licensing in individual cells allows for long-term, quantitative fine-tuning of population-level responses.

Project description:Radiation continues to play a major role in the treatment of almost every cancer type. Traditional radiation studies focused on its ability to damage DNA, but recent evidence has demonstrated that a key mechanism driving the efficacy of radiation in vivo is the immune response triggered in irradiated tissue. Innate immune cells including macrophages, dendritic cells, and natural killer cells are key mediators of the radiation-induced immune response. They regulate the sensing of radiation-mediated damage and subsequent radiation-induced inflammation. Given the importance of innate immune cells as determinants of the post-radiation anti-tumor immune response, much research has been devoted to identify ways to both enhance the innate immune response and prevent their ability to suppress ongoing immune responses. In this review, we will discuss how the innate immune system shapes anti-tumor immunity following radiation and highlight key strategies directed at the innate immune response to enhance the efficacy of radiation.

Project description:Immunotherapies have shown considerable efficacy for the treatment of various cancers, but a multitude of patients remain unresponsive for various reasons, including poor homing of T cells into tumors. In this study, we investigated the roles of the leukotriene B4 receptor, BLT1, and CXCR3, the receptor for CXCL9, CXCL10, and CXCL11, under endogenous as well as vaccine-induced antitumor immune response in a syngeneic murine model of B16 melanoma. Significant accelerations in tumor growth and reduced survival were observed in both BLT1(-/-) and CXCR3(-/-) mice as compared with wild-type (WT) mice. Analysis of tumor-infiltrating leukocytes revealed significant reduction of CD8(+) T cells in the tumors of BLT1(-/-) and CXCR3(-/-) mice as compared with WT tumors, despite their similar frequencies in the periphery. Adoptive transfer of WT but not BLT1(-/-) or CXCR3(-/-) CTLs significantly reduced tumor growth in Rag2(-/-) mice, a function attributed to reduced infiltration of knockout CTLs into tumors. Cotransfer experiments suggested that WT CTLs do not facilitate the infiltration of knockout CTLs to tumors. Anti-programmed cell death-1 (PD-1) treatment reduced the tumor growth rate in WT mice but not in BLT1(-/-), CXCR3(-/-), or BLT1(-/-)CXCR3(-/-) mice. The loss of efficacy correlated with failure of the knockout CTLs to infiltrate into tumors upon anti-PD-1 treatment, suggesting an obligate requirement for both BLT1 and CXCR3 in mediating anti-PD-1 based antitumor immune response. These results demonstrate a critical role for both BLT1 and CXCR3 in CTL migration to tumors and thus may be targeted to enhance efficacy of CTL-based immunotherapies.

Project description:?? T cells have been postulated to act as a first line of defense against infectious agents, particularly intracellular pathogens, representing an important link between the innate and adaptive immune responses. Human ?? T cells expand in the blood of brucellosis patients and are active against Brucella in vitro. However, the role of ?? T cells in vivo during experimental brucellosis has not been studied. Here we report TCR?(-/-) mice are more susceptible to B. abortus infection than C57BL/6 mice at one week post-infection as measured by splenic colonization and splenomegaly. An increase in TCR?? cells was observed in the spleens of B. abortus-infected C57BL/6 mice, which peaked at two weeks post-infection and occurred concomitantly with diminished brucellae. ?? T cells were the major source of IL-17 following infection and also produced IFN-?. Depletion of ?? T cells from C57BL/6, IL-17R?(-/-), and GMCSF(-/-) mice enhanced susceptibility to B. abortus infection although this susceptibility was unaltered in the mutant mice; however, when ?? T cells were depleted from IFN-?(-/-) mice, enhanced susceptibility was observed. Neutralization of ?? T cells in the absence of TNF-? did not further impair immunity. In the absence of TNF-? or ?? T cells, B. abortus-infected mice showed enhanced IFN-?, suggesting that they augmented production to compensate for the loss of ?? T cells and/or TNF-?. While the protective role of ?? T cells was TNF-?-dependent, ?? T cells were not the major source of TNF-? and activation of ?? T cells following B. abortus infection was TNF-?-independent. Additionally, bovine TCR?? cells were found to respond rapidly to B. abortus infection upon co-culture with autologous macrophages and could impair the intramacrophage replication of B. abortus via IFN-?. Collectively, these results demonstrate ?? T cells are important for early protection to B. abortus infections.

Project description:Probiotic formulations are widely available and have a variety of proposed beneficial effects, including promotion of gut health. The mechanisms of action of probiotic bacteria in the intestine are still unclear but are generally attributed to an antiinflammatory effect. Here, we demonstrate that the multiple probiotic formulation VSL#3 prevents the onset of intestinal inflammation by local stimulation of epithelial innate immune responses (i.e., increased production of epithelial-derived TNF-alpha and restoration of epithelial barrier function in vivo). We also demonstrate that probiotic bacteria stimulate epithelial production of TNF-alpha and activate NF-kappaB in vitro. Our results support the hypothesis that probiotics promote gut health through stimulation, rather than suppression, of the innate immune system. Furthermore, our findings provide the perspective that defects in innate immunity may play a critical role in the pathogenesis and progression of intestinal disorders, such as inflammatory bowel disease.

Project description:Innate immune responses are critical for mucosal immunity. Here we describe an innate lymphocyte population, iCD8? cells, characterized by expression of CD8? homodimers. iCD8? cells exhibit innate functional characteristics such as the capacity to engulf and kill bacteria. Development of iCD8? cells depends on expression of interleukin-2 receptor ? chain (IL-2R?c), IL-15, and the major histocompatibility complex (MHC) class Ib protein H2-T3, also known as the thymus leukemia antigen or TL. While lineage tracking experiments indicated that iCD8? cells have a lymphoid origin, their development was independent of the transcriptional suppressor Id2, suggesting that these cells do not belong to the family of innate lymphoid cells. Finally, we identified cells with a similar phenotype in humans, which were profoundly depleted in newborns with necrotizing enterocolitis. These findings suggest a critical role of iCD8? cells in immune responses associated with the intestinal epithelium.

Project description:Aspergillus fumigatus, a ubiquitous mold, is a common cause of invasive aspergillosis (IA) in immunocompromised patients. Host defense against IA relies on lung-infiltrating neutrophils and monocyte-derived dendritic cells (Mo-DCs). Here, we demonstrate that plasmacytoid dendritic cells (pDCs), which are prototypically antiviral cells, participate in innate immune crosstalk underlying mucosal antifungal immunity. Aspergillus-infected murine Mo-DCs and neutrophils recruited pDCs to the lung by releasing the CXCR3 ligands, CXCL9 and CXCL10, in a Dectin-1 and Card9- and type I and III interferon signaling-dependent manner, respectively. During aspergillosis, circulating pDCs entered the lung in response to CXCR3-dependent signals. Via targeted pDC ablation, we found that pDCs were essential for host defense in the presence of normal neutrophil and Mo-DC numbers. Although interactions between pDC and fungal cells were not detected, pDCs regulated neutrophil NADPH oxidase activity and conidial killing. Thus, pDCs act as positive feedback amplifiers of neutrophil effector activity against inhaled mold conidia.

Project description:Because of mechanisms of self-tolerance, many tumor-specific CD8 T cells exhibit low avidity for tumor antigens and would benefit from strategies that enhance their numbers and effector function. Here we demonstrate that the combined use of two different types of immune adjuvants, one that directly targets the CD8 cell, IL-2/anti-IL-2 mAb complexes, and one that targets the innate immune system, poly(I:C), can achieve this goal. Provision of IL-2/mAb complexes was found to enhance the activation and effector function of low-avidity tumor-specific T cells, yet this was insufficient to achieve tumor eradication. The addition of poly(I:C) further increased the accumulation of granzyme B-expressing effectors within the tumor and resulted in tumor eradication. This strategy presents many of the benefits of whole-body irradiation, including the provision of high levels of homeostatic cytokines, enhanced expansion of effector cells relative to regulatory T cells, and provision of inflammatory cytokines, and is therefore likely to serve as a strategy for both tumor vaccines and adoptive immunotherapy of cancer.