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MicroRNAs are small RNA species involved in biological control at multiple levels. Using genetic deletion and transgenic approaches, we show that the evolutionarily conserved microRNA-155 (miR-155) has an important role in the mammalian immune system, specifically in regulating T helper cell differentiation and the germinal center reaction to produce an optimal T cell-dependent antibody response. miR-155 exerts this control, at least in part, by regulating cytokine production. These results also suggest that individual microRNAs can exert critical control over mammalian differentiation processes in vivo.

Neutrophils contribute to pathogen clearance through pattern recognition receptors (PRRs) activation. However, the role of PRRs in neutrophils in both HIV-1-infected [HIV-1(+)] and HIV-1-exposed seronegative individuals (HESN) is unknown. Here, a study was carried out to evaluate the level of PRR mRNAs and cytokines produced after activation of neutrophils from HIV-1(+), HESN and healthy donors. The neutrophils were stimulated with specific agonists for TLR2, TLR4 and TLR9 in the presence of HIV-1 particles. Pro-inflammatory cytokine production, expression of neutrophil activation markers and reactive oxygen species (ROS) production were analyzed in neutrophils from HESN, HIV-1(+) and healthy donors (controls). We found that neutrophils from HESN presented reduced expression of PRR mRNAs (TLR4, TLR9, NOD1, NOD2, NLRC4 and RIG-I) and reduced expression of cytokine mRNAs (IL-1β, IL-6, IL-18, TNF-α and TGF-β). Moreover, neutrophils from HESN were less sensitive to stimulation through TLR4. Furthermore, neutrophils from HESN challenged with HIV-1 and stimulated with TLR2 and TLR4 agonists, produced significantly lower levels of reactive oxygen species, versus HIV-1(+). A differential pattern of PRR expression and release of innate immune factors in neutrophils from HESN is evident. Our results suggest that lower neutrophil activation can be involved in protection against HIV-1 infection.

Lymphoid follicles are B-cell-rich compartments of lymphoid organs that function as sites of B-cell antigen encounter and differentiation. CXC chemokine receptor-5 (CXCR5) is required for B-cell migration to splenic follicles 1 , but the requirements for homing to B-cell areas in lymph nodes remain to be defined. Here we show that lymph nodes contain two types of B-cell-rich compartment: follicles containing follicular dendritic cells, and areas lacking such cells. Using gene-targeted mice, we establish that B-lymphocyte chemoattractant (BLC/BCA1) 2 , 3 and its receptor, CXCR5, are needed for B-cell homing to follicles in lymph nodes as well as in spleen. We also find that BLC is required for the development of most lymph nodes and Peyer's patches. In addition to mediating chemoattraction, BLC induces B cells to upregulate membrane lymphotoxin α1β2, a cytokine that promotes follicular dendritic cell development and BLC expression 4 , 5 , establishing a positive feedback loop that is likely to be important in follicle development and homeostasis. In germinal centres the feedback loop is overridden, with B-cell lymphotoxin α1β2 expression being induced by a mechanism independent of BLC.

Optic neuritis associated with multiple sclerosis and its animal model, experimental autoimmune optic neuritis (EAON), is characterized by inflammation, T cell activation, demyelination, and neuronal damage, which might induce permanent vision loss. Elucidating the chronological relationship among the features is critical for treatment of demyelinating optic neuritis. EAON was induced in C57BL/6 mice immunized with myelin oligodendrocyte glycoprotein subcutaneously, and visual function was assessed by flash-visual evoked potential (F-VEP) at days 7, 11, 14, 19, 23, 28 post-immunization. Retinal ganglion cell (RGC) apoptosis was measured by terminal-deoxynucleotidyl transferase-mediated nick-end labeling. Demyelination and axonal damage were verified with myelin basic protein (MBP) and β-amyloid precursor protein staining, respectively. Real-time polymerase chain reaction quantified IL-17, IL-1β, TGF-β, FoxP3, IL-6, and IL-10 mRNA expression in the optic nerve, as well as FoxP3 and IL-17 staining. Systemic changes of Th17 and Treg cells were tested by flow cytometry in spleen. F-VEP latency was prolonged at 11 days and peaked at 23 days commensurate with demyelination. However, F-VEP amplitude was reduced at 11 days, preceding axon damage, and was exacerbated at 23 days when a peak in RGC apoptosis was detected. Th17 cells up-regulated as early as 7 days and peaked at 11 days, while Treg cells down-regulated inversely compared to Th17 cells change as verified by IL-17 and FoxP3 expression; spleen cell samples were slightly different, demonstrating marked changed at 14 days. Treg/Th17 cell imbalance in the optic nerve precedes and may initiate neuronal damage of axons and RGCs. These changes are commensurate with the appearances of visual dysfunction reflected in F-VEP and hence may offer a novel therapeutic avenue for vision preservation.

Transcription factors with a basic helix–loop–helix (HLH) motif have been shown to be crucial for various cell differentiation processes during development of multicellular organisms 1 . Id proteins inhibit the functions of these transcription factors in a dominant-negative manner by suppressing their heterodimerization partners through the HLH domains 2 , 3 , 4 . Members of the Id family also promote cell proliferation 4 , 5 , implying a role in the control of cell differentiation. Here we show that Id2 is indispensable for normal development of mice. Id2 −/− mice lack lymph nodes and Peyer's patches. However, their splenic architecture is normal, exhibiting T-cell and B-cell compartments and distinct germinal centres. The cell population that produces lymphotoxins, essential factors for the development of secondary lymphoid organs 6 , 7 , 8 , 9 , 10 , 11 , is barely detectable in the Id2 −/− intestine. Furthermore, the null mutants show a greatly reduced population of natural killer (NK) cells, which is due to an intrinsic defect in NK-cell precursors. Our results indicate that Id2 has an essential role in the generation of peripheral lymphoid organs and NK cells.

Although cognate encounters between antigen-bearing dendritic cells (DCs) that express the chemokine receptor CCR7 and CCR7(+) naive T cells take place in the T cell zone of lymph nodes, it is unknown whether the colocalization of DCs and T cells in the T cell area is required for the generation of effector cells. Here we found that after infection with an intestinal nematode, antigen-bearing DCs and CD4(+) T cells upregulated the chemokine receptor CXCR5 and localized together outside the T cell zone by a mechanism dependent on the chemokine CXCL13, B cells and lymphotoxin. Notably, lymphotoxin-expressing B cells, CXCR5-expressing DCs and T cells, and CXCL13 were also necessary for development of interleukin 4 (IL-4)-producing type 2 helper T cells (T(H)2 cells), which suggests that T(H)2 differentiation can initiate outside the T cell zone.

The influence of biallelic polymorphisms in the tumour necrosis factor-alpha (TNF alpha), lymphotoxin-alpha (LT alpha) and interleukin-10 (IL-10) genes on stimulated TNF alpha and IL-10 production was studied in ulcerative colitis (UC) patients, Crohn's disease (CD) patients and in healthy controls. A polymerase chain reaction sequence-specific primer (PCR-SSP) system was developed to type nine biallelic polymorphisms, three in each of the TNF alpha, LT alpha and IL-10 genes. Production of the TNF alpha and IL-10 was measured by ELISA in lipopolysaccharide (LPS) stimulated whole blood. Four haplotypes of the TNF alpha gene, three haplotypes of LT alpha and three haplotypes of IL-10 were identified. No significant differences in haplotype frequencies were found between patients and controls overall. On subgroup analysis however, haplotype TNF-2 was more frequent in women with extensive colitis compared to distal colitis (31% vs 12%; P = 0.028). This difference was even greater for the combined TNF-2-LT alpha-2 haplotype (56% vs 21%; P = 0.0007). The TNF-2 and LT alpha-2 haplotypes were associated with higher TNF alpha production in CD patients, and the TNF-4 haplotype was associated with lower TNF alpha production in UC patients. The A allele in the IL-10 promoter region at position -1082 was associated with decreased IL-10 production in CD patients and controls (P = 0.005, P = 0.015 respectively). These data provide evidence that the effect of TNF alpha, LT alpha and IL-10 gene polymorphisms on cytokine production differ in CD, UC patients and controls.

Tumor necrosis factor (TNF) is one of the most important proinflammatory cytokines. It demonstrates a complex pattern of tissue-specific expression and behaves as a product of immediate early transcriptional response in macrophages. These properties have made the regulation of TNF gene, as well as regulation of tightly linked related lymphotoxin α (LTα) and β (LTβ) genes, the object of thorough investigation for more than two decades. Some aspects of TNF/LT locus regulation, such as the role of distal TNF-promoter and of NF-κB factors in TNF gene transcription, still remain the object of discussion. Moreover, several recent studies uncovering the molecular mechanisms of immediate early gene activation and that are directly related to TNF gene regulation have not been reflected in published reviews yet. Here, we briefly overview the modern concepts of transcriptional regulation of the TNF/LT locus, with an accent on new data and unanswered questions.

We report on the production of tumor necrosis factor (TNF)-alpha and TNF-beta by mitogen-activated peripheral blood lymphocytes or enriched monocyte subpopulations from human leukocyte antigen (HLA)-typed healthy subjects. The results indicate that HLA-DR2- and DQw1-positive donors frequently exhibit low production of TNF-alpha, whereas DR3- and DR4-positive subjects show high levels of TNF-alpha production. No correlation between TNF-alpha levels and HLA-A, -B, and -C genotype was found. The relevance of this quantitative polymorphism to the genetic predisposition to lupus nephritis in systemic lupus erythematosus (SLE) patients was investigated. DR2, DQw1-positive SLE patients show low levels of TNF-alpha inducibility; this genotype is also associated with an increased incidence of lupus nephritis. DR3-positive SLE patients, on the other hand, are not predisposed to nephritis, and these patients have high TNF-alpha production. DR4 haplotype is associated with high TNF-alpha inducibility and is negatively correlated with lupus nephritis. These data may help explain the strong association between HLA-DR2, DQw1 in SLE patients and their susceptibility to nephritis.

Myeloma cells destroy bone by producing an osteoclast-stimulating factor that has chemical and biological characteristics similar to the bone-resorbing activity present in the supernatants of activated leukocyte cultures. Recently, a number of bone-resorbing leukocyte cytokines have been identified, including interleukin-1, lymphotoxin, and tumor necrosis factor. We have examined the products of human myeloma cells for the presence of these bone-resorbing cytokines. In a tumor cell line derived from a patient who had myeloma with osteolytic bone lesions and hypercalcemia, we found that the myeloma cells induced bone-resorbing activity and cytotoxic activity in vitro. Most of the bone-resorbing activity and all cytotoxic activity were suppressed by neutralizing antibodies to lymphotoxin. The myeloma cells expressed both lymphotoxin and tumor necrosis factor mRNA, but no tumor necrosis factor could be detected in the cell-culture medium. Interleukin-1 mRNA was not detected in the myeloma cells, and biologic activity of interleukin-1 was not measurable in the medium harvested from the cultured cells. The bone-resorbing activity induced by recombinant tumor necrosis factor and recombinant interleukin-1 was not affected by treatment with the lymphotoxin antibodies. When lymphotoxin was infused subcutaneously into normal mice (10 μg per day for three days), their plasma calcium levels increased. We also evaluated four established cell lines derived from three other patients with myeloma, and found a similar pattern of lymphotoxin expression in each. It appears that production of the bone-resorbing cytokine lymphotoxin is related to osteoclastic bone destruction and hypercalcemia in patients with myeloma. (N Engl J Med 1987;317:526–32.) MYELOMA is characterized by extensive bone destruction, which occurs in almost all patients and is accompanied by severe and intractable pain and susceptibility to fracture. Hypercalcemia develops in many patients during the course of the disease. 1 Histologic sections of bone are characterized by an increase in osteoclast activity occurring adjacent to the myeloma cells. 2 , 3 The mechanism appears to be the production by myeloma cells of an osteoclaststimulating factor with biologic characteristics similar to those of the osteoclast-activating factor produced by normal activated leukocytes. 1 , 4 The bone-resorbing activity present in supernatants of activated leukocyte cultures probably represents the net effect of a . . .