Analysis of splenic Gr-1int immature myeloid cells in tumor-bearing mice.

It is known that the number of ImC, expressing myeloid markers, CD11b and Gr-1, increase with tumor growth and ImC play a role in the escape of tumor cells from immunosurveillance in tumor-bearing mice and cancer patients. However, the mechanisms by which ImC suppress immune responses in tumor-bearing mice have not been completely elucidated. In the present study, we investigated the function of splenic ImC freshly isolated from tumor-bearing mice and splenic ImC differentiated in vitro by GM-CSF. Freshly isolated splenic ImC were divided into two groups depending on Gr-1 expression, Gr-1 high (Gr-1hi) and intermediate (Gr-1int). Freshly isolated splenic Gr-1int ImC, but not Gr-1hi ImC, from tumor-bearing mice reduced production of IFN-gamma in CD8+ T cells, but neither splenic Gr-1int ImC nor Gr-1hi ImC isolated from naive mice did. Both Gr-1int and Gr-1hi ImC differentiated in vitro by GM-CSF inhibited production of IFN-gamma in both CD8+ and CD4+ T cells. In addition, the differentiated Gr-1int ImC, one-third of which were CD11c+F4/80+ cells, and their culture supernatants suppressed proliferative responses of T cells stimulated by CD3 ligation, but the differentiated Gr-1hi ImC and their culture supernatants did not. These results suggest that Gr-1int ImC are altered to immune-suppressive cells in tumor circumstances and that they are differentiated by GM-CSF progressively into CD11c+F4/80+ cells with further suppressive activity against T cells.     

Tumor-associated CD8+ T cell tolerance induced by bone marrow-derived immature myeloid cells

T cell tolerance is a critical element of tumor escape. However, the mechanism of tumor-associated T cell tolerance remains unresolved. Using an experimental system utilizing the adoptive transfer of transgenic T cells into naive recipients, we found that the population of Gr-1+ immature myeloid cells (ImC) from tumor-bearing mice was able to induce CD8+ T cell tolerance. These ImC accumulate in large numbers in spleens, lymph nodes, and tumor tissues of tumor-bearing mice and are comprised of precursors of myeloid cells. Neither ImC from control mice nor progeny of tumor-derived ImC, including tumor-derived CD11c+ dendritic cells, were able to render T cells nonresponsive. ImC are able to take up soluble protein in vivo, process it, and present antigenic epitopes on their surface and induce Ag-specific T cell anergy. Thus, this is a first demonstration that in tumor-bearing mice CD8+ T cell tolerance is induced primarily by ImC that may have direct implications for cancer immunotherapy.     

Antigen-specific inhibition of CD8+ T cell response by immature myeloid cells in cancer is mediated by reactive oxygen species

Tumor growth is associated with the accumulation of immature myeloid cells (ImC), which in mice are characterized by the expression of Gr-1 and CD11b markers. These cells suppress Ag-specific CD8+ T cells via direct cell-cell contact. However, the mechanism of immunosuppressive activity of tumor-derived ImC remains unclear. In this study we analyzed the function of ImC isolated from tumor-free control and tumor-bearing mice. Only ImC isolated from tumor-bearing mice, not those from their control counterparts, were able to inhibit the Ag-specific response of CD8+ T cells. ImC obtained from tumor-bearing mice had significantly higher levels of reactive oxygen species (ROS) than ImC isolated from tumor-free animals. Accumulation of H2O2, but not superoxide or NO, was a major contributor to this increased pool of ROS. It appears that arginase activity played an important role in H2O2 accumulation in these cells. Inhibition of ROS in ImC completely abrogated the inhibitory effect of these cells on T cells, indicating that ImC generated in tumor-bearing hosts suppress the CD8+ T cell response via production of ROS. Interaction of ImC with Ag-specific T cells in the presence of specific Ags resulted in a significant increase in ROS production compared with control Ags. That increase was independent of IFN-gamma production by T cells, but was mediated by integrins CD11b, CD18, and CD29. Blocking of these integrins with specific Abs abrogated ROS production and ImC-mediated suppression of CD8+ T cell responses. This study demonstrates a new mechanism of Ag-specific T cell inhibition mediated by ROS produced by ImCs in cancer.     

Co-expression of IL-18 binding protein and IL-4 regulates Th1/Th2 cytokine response in murine collagen-induced arthritis

We constructed a recombinant adenoviral vector containing a murine interleukin （IL）-18 binding protein （mlL-18BP） and murine IL-4 （mIL-4） fusion gene （AdmIL-18BP/mIL.4） and used a gene therapy approach to investigate the role of IL-18BP and IL-4 in modulating the T-helperl and T-helper2 （Th1/Th2） balance in mice with collagen-induced arthritis （CIA）. Mice with CIA were intra-articularly injected with 107 pfu/6 μl ofeitherAdmIL.18BP/mIL-4, or a controladenovirus, or with the control vehicle （phosphate-buffered saline）. After intra-articular gene therapy with AdmIL-18BP/mIL-4, the serum levels of tumor necrosis factor-α （TNF-α）, T-interferon （IFN-γ）, IL-4, IL-10, and IL-18 in mice with CIA were assessed by ELISA. IFN-T-expressing and IL-4-expressing CD4^＋ T cells from mice splenocytes were monitored by flow cytometry. Mice with CIA at weeks 1, 2, and 4 after intraarticular injection of AdmIL-18BP/mIL-4 showed significantly increased serum concentrations of IL-4 and IL-10 （P〈0.01 at all time points） but greatly decreased serum concentrations ofIFN-γ, TNF-α and IL-β （P〈0.01 at all time points ） compared to both the con trol adenovirus and phospha tebuffered saline control groups. The percentage of LFN-γ- producing CD4^＋ T cells was significantly decreased in response to local AdmIL-18BP/mIL-4 treatment. The percentage of IL-4-producing CD4^＋ T cells increased significantly at 1 week after local injection of AdmIL-18BP/ mIL-4 then returned to normal by week 4. These data indicated the significant modifying effects on the Th1/Th2 imbalance in murine CIA produced by local overexpression of IL-18BP and IL-4. Combination treatment with IL-18BP and IL-4 is a promising potential therapy for rheumatoid arthritis.     

Vaccination with SIVmac239Δnef activates CD4+ T cells in the absence of CD4+ T-cell loss

Background  Pathogenic HIV and SIV infections characteristically deplete central memory CD4⁺ T cells and induce chronic immune activation, but it is controversial whether this also occurs after vaccination with attenuated SIVs and whether depletion or activation of CD4⁺ T-cell play roles in protection against wild-type virus challenge.
Methods  Rhesus macaques were vaccinated with SIVmac239Δnef and quantitative and phenotypic polychromatic flow cytometry analyses were performed on mononuclear cells from blood, lymph nodes and rectal biopsies.
Results  Animals vaccinated with SIVmac239Δnef demonstrated no loss of CD4⁺ T cells in any tissue, and in fact CCR5⁺ and CD28⁺CD95⁺ central memory CD4⁺ T cells were significantly increased. In contrast, CD4⁺ T-cell numbers and CCR5 expression significantly declined in unvaccinated controls challenged with SIVmac239. Also, intracellular Ki67 increased acutely as much as 3-fold over baseline in all tissues after SIVmac239Δnef vaccination then declined following primary infection.
Conclusion  We demonstrated in this study that SIVmac239Δnef vaccination did not deplete CD4⁺ T cells but transiently activated and expanded the memory cell population. However, increases in numbers and activation of memory CD4⁺ T cells did not appear to influence protective immunity.     

Surface phenotype and rapid quantification of blood dendritic cell subsets in the rhesus macaque

Background  The study of dendritic cell (DC) biology in the rhesus macaque is becoming increasingly important but is limited by incomplete characterization and the lack of a rapid assay to quantify cells.
Methods  We characterized the surface phenotype of myeloid (mDC) and plasmacytoid DC (pDC) subsets in healthy rhesus macaque blood and developed a flow cytometry-based assay for absolute DC determinations.
Results  Rhesus CD11c⁺ mDC were CD16⁺ CD11b⁺ CD56^lo CD8⁻ CD1c⁻ whereas CD123⁺ pDC lacked expression of these markers. Precise DC determinations were performed using a rapid two-step assay combining the analysis of whole blood and peripheral blood leukocytes (PBL).
Conclusions  Antibodies to CD11b, CD56 and CD16 must be omitted from the lineage antibody cocktail to prevent inadvertent gating-out of DC when analyzing rhesus blood. The combined whole-blood/PBL quantification assay will be invaluable for the rapid and repeated monitoring of blood DC counts in this species.     

Interaction between superantigen and T-cell receptor Vβ element determines levels of superantigen-dependent cell-mediated cytotoxicity of CD8+ T cells in induction and effector phases

Specific superantigens activate different T-cell fractions with distinct TCR Vβ elements in association with MHC class II molecules and also induce SDCC against MHC class II⁺ target cells. In the present study, to determine whether the responsiveness of each CD8⁺ T-cell fraction expressing a different TCR Vβ element is primarily determined by the TCR Vβ, we compared the levels of proliferation and SDCC in Vβ3⁺ and Vβ11⁺ T cells upon stimulation with SEA. Upon stimulation with SEA_wt, the levels of proliferation were higher in Vβ3⁺ T cells than in Vβ11⁺ T cells. The levels of SDCC were also higher for the combination of Vβ3⁺ T cells and SEA_wt than for the combination of Vβ11⁺ T cells and SEA_wt during both the induction phase and the effector phase. In addition, upon stimulation with SEA_m, the levels of proliferation were higher in Vβ11⁺ T cells than in Vβ3⁺ T cells. And then, the levels of SDCC were also higher for the combination of Vβ11⁺ T cells and SEA_m than for the combination of Vβ3⁺ T cells and SEA_m during both the induction phase and the effector phase. These results suggest that the SAG-responsiveness of each CD8⁺ T-cell fraction expressing a different TCR Vβ element is primarily determined by the interaction between the TCR Vβ element and the SAG.     

Change of specific T cells in an emerging neonatal infectious disease induced by a bacterial superantigen

A new epidemic, NTED, has recently occurred in Japan. The cause of NTED is a bacterial superantigen, TSST-1. The aim of the present study was to analyze the change in Vβ2⁺ T cells reactive to TSST-1 in NTED in order to establish T-cell-targeted diagnostic criteria for NTED. Blood samples from 75 patients with clinically diagnosed NTED were collected from 13 neonatal intensive care units throughout Japan. We investigated the percentages of Vβ2⁺, Vβ3⁺ and Vβ12⁺ T cells and their CD45RO expressions in the samples using flow cytometry. In 18 of the 75 patients, we conducted multiple examinations of the T cells and monitored serial changes. The Vβ2⁺ T-cell population rapidly changed over three phases of the disease. Whereas the percentage of Vβ2⁺ T cells was widely distributed over the entire control range, CD45RO expression on Vβ2⁺ T cells in CD4⁺ in all 75 patients was consistently higher than the control range. Patients cannot necessarily be diagnosed as having NTED based on expansion of Vβ2⁺ T cells alone in the early acute phase. Instead, CD45RO expression on specific Vβ2⁺ cells is a potential diagnostic marker for a rapid diagnosis of NTED. We present three diagnostic categories of NTED. Fifty patients (66.7%) were included in the category 'definitive NTED'. It is important to demonstrate an increase of Vβ2⁺ T cells in the following phase in cases of 'probable NTED' or 'possible NTED'.     

GM-CSF-mediated T-cell activation by macrophages infected with recombinant BCG that secretes major membrane protein-II of Mycobacterium leprae

The potential of Mycobacterium bovis Bacillus Calmette–Guerin (BCG) needs to be augmented to efficiently activate CD4⁺ T cells through macrophages. Mycobacterium leprae -derived recombinant major membrane protein (MMP)-II induced GM-CSF production from macrophages. A recombinant BCG-SM that secretes MMP-II more efficiently produced GM-CSF and activated interferon (IFN)-γ-producing CD4⁺ T cells than did vector control BCG when infected with macrophages. The T-cell activation by BCG-SM was dependent on the GM-CSF production by macrophages. Interleukin (IL)-10 production by macrophages stimulated with M. leprae was inhibited in a GM-CSF-dependent manner when the precursor monocytes were infected with BCG-SM. BCG inducing GM-CSF production was effective in macrophage-mediated T-cell activation partially through IL-10 inhibition.     

Comparison of T cell cytokines in resistant and susceptible mice infected with virulent Brucella abortus strain 2308

Abstract C57BL/10 and BALB/c mice differ in their abilities to clear infections with the intracellular bacterium Brucella abortus strain 2308. We have previously reported that in vivo neutralization of IL-10 in the susceptible BALB/c mice results in significantly fewer bacteria in their spleens 1 week after infection with 5 × 10³ colony forming units (CFU) of 2308. Here we extend those studies and report a similar effect when IL-4 is neutralized. In contrast, in the more resistant C57BL/10 mice infected with 5 × 10³ CFU, neither neutralization of IL-10 nor IL-4 significantly decreased the level of infection nor did it in either BALB/c or C57BL/10 mice infected with a 1000-fold higher dose of strain 2308. While splenocytes from the later mentioned groups of 1 produced IL-10 in response to stimulation with brucella antigen, they also produced higher levels of interferon (IFN)-γ than those from BALB/c mice infected with the low challenge dose of 5 × 10³ CFU. Results of in vivo neutralization of IFN-γ by monoclonal antibodies (MAb) reported here and elsewhere indicated that IFN-γ is important for control; thus, we postulate that the higher levels of IFN-γ may override the detrimental effects of Th2 cytokines. In vitro studies also showed that macrophages from the more resistant C57BL/10 mice were less susceptible to the ability of IL-10 to decrease anti-brucella activities than were BALB/c macrophages. CD4⁺ T cells were principally responsible for the production of IL-10 in BALB/c but not C57BL/10 splenocyte populations. C57BL/10 splenocytes produced more IFN-γ than those from BALB/c mice in response to stimulation with brucella antigens. These differences between BALB/c and C57BL/10 mice may contribute to the superior capacity of C57BL/10 mice to control infections with B. abortus strain 2308.     

Ex vivo expansion and lentiviral transduction of Macaca nemestrina CD4+ T cells

Background  Macaca nemestrina is a nonhuman primate used as a model in preclinical studies of hematopoietic stem cell transplantation and adoptive transfer of T cells. Adoptive T cell transfer studies typically require ex vivo expansion of substantial numbers of T cells prior to their reinfusion into the subject.
Methods  Pigtailed macaque peripheral blood CD4⁺ cells were expanded using CD3 and CD28 antibody-coated beads. These cells were transformed using Herpesvirus saimiri and were also transduced with HIV-1 based lentiviral vectors.
Results  We report an efficient method for the ex vivo expansion of CD4⁺ T cells from Macaca nemestrina peripheral blood. With this protocol, primary CD4⁺ T cells can be expanded between 300- to 6000-fold during 24-day period and can be efficiently transduced with lentiviral vectors. Furthermore, these T cells can be transformed by Herpesvirus saimiri and maintained in culture for several months. The transformed T cell lines can be productively infected with the simian immunodeficiency virus (SIV) strain SIV_mac239.
Conclusions  We have established methods for the expansion and transformation of primary M. nemestrina CD4⁺ T cells and demonstrated the utility of these methods for several applications.     

Uncommon endocytic and trafficking pathway of the natural killer cell CD94/NKG2A inhibitory receptor

The CD94/NKG2A inhibitory receptor, expressed by natural killer and T cells, is constantly exposed to its HLA-E ligand expressed by surrounding cells. Ligand exposure often induces receptor downregulation. For CD94/NKG2A, this could potentiate activation receptor(s) induced responses to normal bystander cells. We investigated CD94/NKG2A endocytosis and found that it occurs by an amiloride-sensitive, Rac1-dependent macropinocytic- like process; however, it does not require clathrin, dynamin, ADP ribosylation factor-6, phosphoinositide-3 kinase or the actin cytoskeleton. Once endocytosed, CD94/NKG2A traffics to early endosomal antigen 1⁺, Rab5⁺ early endosomes. It does appear in Rab4⁺ early/sorting endosome, but, in the time period examined, fails to reach Rab11⁺ recycling or Rab7⁺ late endosomes or lysosome-associated membrane protein-1⁺ lysosomes. These results indicate that CD94/NKG2A utilizes a previously undescribed endocytic mechanism coupled with an abbreviated trafficking pattern, perhaps to insure surface expression.     

Multipotent mesenchymal stem cells from adult human eye conjunctiva stromal cells

Abstract Identification of mesenchymal stem cells (MSCs) derived from alternative sources has provided an exciting prospect for intensive investigation. This work focused on characterizing a new source of MSCs from stromal cells from human eye conjunctiva. In this study, after conjunctiva biopsies and culture of stromal segment of this tissue, fibroblast-like (SH2⁺, SH3⁺, CD29⁺, CD44⁺, CD166⁺, CD13⁺) human stromal cells, which can be differentiated toward the osteogenic, adipogenic, chondrogenic, and neurogenic lineages, were obtained. These cells expressed Oct-4, Nanog, Rex-1 genes, and some lineage-specific markers like cardiac actin and Keratin. Taken together, the results indicate that conjunctiva stromal-derived cells are a new source of multipotent MSCs and despite originating from an adult source, they express undifferentiated stem cell markers.     

Prospective isolation and characterization of mesenchymal stem cells from human placenta using a frizzled-9-specific monoclonal antibody

Abstract We have recently shown that frizzled-9 (FZD9, CD349) is expressed on the cell surface of cultured mesenchymal stromal cells (MSC) derived from the human bone marrow (BM) and chorionic placenta (PL). To study whether FZD9 is also a marker for naive mesenchymal stem cells (MSC), we analyzed the expression pattern of FZD9 on freshly isolated PL cells and determined the clonogenic potential of isolated FZD9⁺ cells using the colony-forming units-fibroblastic (CFU-F) assay. About 0.2% of isolated PL cells were positive for FZD9. Two-color analysis revealed that FZD9⁺ PL cells uniformly express CD9, CD63, and CD90, but are heterogeneous for CD10, CD13, and CD26 expression. In contrast to BM-derived MSC, PL-derived MSC expressed only low levels of CD271. Colony assays of sorted cells showed that clonogenic CFU-F reside exclusively in the FZD9⁺ but not in the FZD9⁻ fraction. Further analysis revealed that CFU-F were enriched by 60-fold in the FZD9⁺CD10⁺CD26⁺ fraction but were absent in the FZD9⁺CD10⁻CD26⁻ population. Cultured FZD9⁺ cells expressed the embryonic stem cell makers Oct-4 and nanog as well as SSEA-4 and TRA1-2-49/6E. In addition, they could be differentiated into functional adipocytes and osteoblasts. This report describes for the first time that FZD9 is a novel and specific marker for the prospective isolation of MSC from human term PL.     

The use of positron emission tomography for studies of long-distance transport in plants: uptake and transport of 18F

Abstract. Positron emission tomography (PET) has been utilized to obtain dynamic images of long distance nutrient translocation in plants. Positron emitting ¹⁸F, produced by a Van de Graaff accelerator using the reaction ¹⁸O(p,n)¹⁸F, was fed in solution to excised stems of Glycine max positioned vertically in a large-aperture PET detector system. Images of tracer activity were recorded with a time resolution of 0.5 min and a spatial resolution of 4 mm. Maximum tracer activities at stem sites were obtained within 3 min of the pulse feed. A model is presented enabling evaluation of regional values for tracer flow, tracer binding, flow speed and flow volume. Analysis of data for one stem position yielded a flow volume of 2.1mm³ min⁻¹ and a flow speed of 36cm min⁻¹. Comparison with the distribution of ¹⁴C-inulin, which was simultaneously fed to the cut stems, indicates the ¹⁸F is suitable for use as an apoplastic tracer; 92% of the tracer activity accumulated in the leaves. The fraction of ¹⁸F that remained bound was most concentrated at stem nodal regions, an observation consistent with the existence of transfer cells at these sites. Advantages and limitations of PET applied to plant physiological investigations are discussed.     

OK-432 and IL-2-augmental cytotoxicity of human natural killer cells and cytotoxic T lymphocytes at the clonal level

Abstract The biology response modifiers OK-432 and interleukin-2 (IL-2) were found to enhance the lytic capacity of cloned CD3⁻ natural killer (NK) cells and CD3⁺ T cells. With respect to NK cells, only those clones with a high proliferative capacity and cultured without phytohaemagglutinin (PHA) responded with enhaced lytic capacity to OK-432. OK-432, but not IL-2, was found to augment the antibody-dependent cellular cytotoxicity of cloned NK cells. With T-cell clones, OK-432 augmented the cellular cytotoxicity of CD3⁺8⁺ but not that of CD3⁺4⁺ cytotoxic T lymphocytes, while IL-2 augmented the cytotoxicity of both types of clone. Taken together, these results indicate that OK-432-augmented lytic capacity is not restricted to NK cells and its pathway of action may be independent of IL-2.     

In Human Fetal Astrocytes Exposure to Interleukin-1β Stimulates Acquisition of the GD3+ Phenotype and Inhibits Cell Division

Abstract: In human astrocyte cultures established from second-trimester fetal brain tissue, ∼5–10% of total astrocyte population in unstimulated cultures were GD3⁺/glial fibrillary acidic protein (GFAP)⁺. The GD3⁺ cells were always GFAP⁺ and grew as flat, highly spread cells but changed to process-bearing cells after interleukin-1β (IL-1β) stimulation. It is interesting that IL-1β, a known mitogen for rat astrocytes, suppressed human fetal astrocyte proliferation as determined by [³H]thymidine incorporation, bromodeoxyuridine (BrdU) labeling, and cell counting. The GD3⁺ population, however, consistently increased in absolute number after IL-1β stimulation, in a dose- and time-dependent manner. The IL-1β-mediated increase in number of GD3⁺ astrocytes was independent of initial cell density or serum concentration. By flow cytometry, IL-1β enhanced both the mean fluorescence intensity and the percentage of GD3⁺ cells. To investigate whether the increase in GD3⁺ astrocyte cell number was due to proliferation of preexisting GD3⁺ astrocytes or due to conversion of GD3⁻ to GD3⁺ cells, we performed BrdU/GD3 double immunocytochemistry. BrdU/GD3 double-positive cells were extremely rare in both control and IL-1β-stimulated cultures. Moreover, an increase in number of GD3⁺ astrocytes was still observed in control and IL-1β-stimulated cultures where GD3⁺ cells had been initially eliminated by cell sorting. These results indicate that GD3⁺ astrocytes in human fetal culture may represent a postmitotic, differentiated, distinct phenotype.     

Lysis of uninfected HIV-1 gp120-coated peripheral blood-derived T lymphocytes by monocyte-mediated antibody-dependent cellular cytotoxicity

Abstract Previous reports from our laboratory have demonstrated that peripheral blood monocytes (PBM) from HIV-1 infected individuals are de novo activated and are cytotoxic in vitro. Significant monocyte-antibody-dependent cellular cytotoxicity (ADCC) was obtained against HIV-1 inactivated CD4⁺ CEM target cells coated with HIV-1 in the presence of autologous seropositive serum. Based on these findings, we hypothesized that in HIV-seropositive individuals the monocytes may play an important role in vivo in the autodestruction of non-infected CD4⁺ T lymphocytes. The present study was designed to test this hypothesis. Monocytes from normal donors activated with M-CSF lysed CD4+ T cells (CEM) coated with gp120 sensitized by plasma from asymptomatic HIV-1+ individuals in a 8 h ⁵¹Cr release assay. ADCC cytotoxic activity varied from one individual to another and was a function of the dilution of the individual seropositive plasma used. We then used circulating CD3+ T lymphocytes as targets for ADCC following treatment with actinomycin D to facilitate the release of radioactive ⁵¹Cr. Like CEM, ADCC was obtained with CD3⁺ T cells coated with gp120 in the presence of HIV seropositive plasma and monocytes. Lysis was specific as T cells that were not coated with gp120 were not destroyed. These findings demonstrate that activated peripheral blood derived monocytes can destroy non-infected gp120-coated circulating T lymphocytes by an ADCC-mediated mechanism. Thus, these findings suggest that ADCC may be one mechanism operating in vivo for the destruction of non-infected CD4⁺ T lymphocytes.     

Nramp1 expression by dendritic cells modulates inflammatory responses during Salmonella Typhimurium infection

Host resistance against Salmonella enterica serovar Typhimurium ( S . Typhimurium) is mediated by natural resistance-associated macrophage protein 1 (Nramp1/Slc11a1). Nramp1 is critical to host defence, as mice lacking Nramp1 fail to control bacterial replication and succumb to low doses of S . Typhimurium. Despite this crucial role, the mechanisms underlying Nramp1's protective effects are unclear. Dendritic cells (DCs) that sample the intestinal lumen are among the first cells encountered by S. Typhimurium following oral infection and act as a conduit for S. Typhimurium to cross the intestinal epithelial barrier. We report that DCs, including intestinal, splenic and bone marrow-derived DCs (BMDCs), express Nramp1 protein. In the small intestine, Nramp1 expression is greater in a subset of DCs (CD11c⁺CD103^-) characterized by the elevated expression of pro-inflammatory cytokines in response to bacterial products. While Nramp1 expression did not affect S. Typhimurium replication in BMDCs, infected Nramp1+/+ BMDCs and intestinal CD11c⁺CD103^- DCs secreted more inflammatory cytokines (IL-6, IL-12 and TNF-α) than Nramp1−/−, suggesting that Nramp1 expression may promote a more rapid inflammatory response following infection. Collectively, these findings reveal a new role for DCs and Nramp1 in modulating the host inflammatory response to S. Typhimurium.