Specific incorporation of L-glutamine into volicitin in the regurgitant of Spodoptera litura

Volicitin, [N-(17-hydroxylinolenoyl)-L-glutamine], was identified as an elicitor of plant volatiles from a Spodoptera exigua regurgitant. It has been proposed that gut microbes synthesize volicitin from glutamine, a predominant amino acid component in the insect gut. However, we found that glutamine was not a major component in the regurgitant of Spodoptera litura, although L-glutamine was exclusively incorporated into volicitin by S. litura fed on diets enriched with various amino acids. This selectivity of glutamine as a substrate was not due to a dominant occurrence in the insect gut.     

Receptor activator of NF-kappaB ligand induction via Jak2 and Stat5a in mammary epithelial cells

Prolactin (PRL) is the primary hormone that, in conjunction with local factors, leads to lobuloalveolar development during pregnancy. Recently, receptor activator of NF-kappaB ligand (RANKL) has been identified as one of the effector molecules essential for lobuloalveolar development. The molecular mechanisms by which PRL may induce RANKL expression have not been carefully examined. Here we report that RANKL expression in the mammary gland is developmentally regulated and dependent on PRL and progesterone, whereas its receptor RANK (receptor activator of NF-kappaB) and decoy receptor osteoprotegerin (OPG) are constitutively expressed at all stages in both normal (PRL+/-) and prolactin knockout (PRL-/-) mice. In vitro, PRL markedly increased RANKL expression in primary mammary epithelial cells and RANKL-luciferase reporter activity in CHOD6 cells, which constitutively express the PRL receptor. We identified a gamma-interferon activation sequence (GAS) in the region between residues -965 to -725 of the RANKL promoter, which conferred a PRL response. Using dominant negative mutants of recombinant Jak2 and Stat5 in CHOD6 cells, and by reconstituting the Jak2/Stat5 pathway in COS7 cells, we determined that Jak2 and Stat5a are essential for the PRL-induced RANKL expression in mammary gland.     

Vancomycin-resistant enterococci in humans and imported chickens in Japan

The phenotypes and genotypes of 22 VanA-type vancomycin-resistant enterococci that had been isolated in Japan were examined. The VanA resistance determinant was plasmid mediated in each of the 22 strains. Of the 22 strains, 8 were isolated from different patients and 11 and 3 were obtained from different samples of chickens imported from Thailand and France, respectively. Three of the strains that were isolated from patients and the 11 strains isolated from the Thai chickens showed high-level vancomycin resistance (MICs, 512 to 1,024 micro g/ml) and low-level teicoplanin resistance (MICs, 0.5 to 4 micro g/ml). Each of these strains had three amino acid substitutions in the N-terminal region of the deduced VanS sequence. L50 was converted to V, E54 was converted to Q, and Q69 was converted to H compared to the vanS gene sequence of Tn1546.     

Inducible costimulator protein controls the protective T cell response against Listeria monocytogenes

The inducible costimulator protein (ICOS) was recently identified as a costimulatory molecule for T cells. Here we analyze the role of ICOS for the acquired immune response of mice against the intracellular bacterium Listeria monocytogenes. During oral L. monocytogenes infection, low levels of ICOS expression were detected by extracellular and intracellular Ab staining of Listeria-specific CD4(+) and CD8(+) T cells. Blocking of ICOS signaling with a soluble ICOS-Ig fusion protein markedly impaired the Listeria-specific T cell responses. Compared with control mice, the ICOS-Ig treated mice generated significantly reduced numbers of Listeria-specific CD8(+) T cells in spleen and liver, as determined by tetramer and intracellular cytokine staining. In contrast, the specific CD8(+) T cell response in the intestinal mucosa did not appear to be impaired by the ICOS-Ig treatment. Analysis of the CD4(+) T cell response revealed that ICOS-Ig treatment also affected the specific CD4(+) T cell response. When restimulated with listerial Ag in vitro, reduced numbers of CD4(+) T cells from infected and ICOS-Ig-treated mice responded with IFN-gamma production. The impaired acquired immune response in ICOS-Ig treated mice was accompanied by their increased susceptibility to L. monocytogenes infection. ICOS-Ig treatment drastically enhanced bacterial titers, and a large fraction of mice succumbed to the otherwise sublethal dose of infection. Thus, ICOS costimulation is crucial for protective immunity against the intracellular bacterium L. monocytogenes.     

Essential role of NF-kappa B-inducing kinase in T cell activation through the TCR/CD3 pathway

NF-kappa B-inducing kinase (NIK) is involved in lymphoid organogenesis in mice through lymphotoxin-beta receptor signaling. To clarify the roles of NIK in T cell activation through TCR/CD3 and costimulation pathways, we have studied the function of T cells from aly mice, a strain with mutant NIK. NIK mutant T cells showed impaired proliferation and IL-2 production in response to anti-CD3 stimulation, and these effects were caused by impaired NF-kappa B activity in both mature and immature T cells; the impaired NF-kappa B activity in mature T cells was also associated with the failure of maintenance of activated NF-kappa B. In contrast, responses to costimulatory signals were largely retained in aly mice, suggesting that NIK is not uniquely coupled to the costimulatory pathways. When NIK mutant T cells were stimulated in the presence of a protein kinase C (PKC) inhibitor, proliferative responses were abrogated more severely than in control mice, suggesting that both NIK and PKC control T cell activation in a cooperative manner. We also demonstrated that NIK and PKC are involved in distinct NF-kappa B activation pathways downstream of TCR/CD3. These results suggest critical roles for NIK in setting the threshold for T cell activation, and partly account for the immunodeficiency in aly mice.     

Inducible costimulator costimulates cytotoxic activity and IFN-gamma production in activated murine NK cells

The functions of NK cells are regulated by the balance of activating and inhibitory signals. The inhibitory NK cell receptors are well understood; however, less is known about the activating signaling pathways. To explore whether a costimulatory receptor, inducible costimulator (ICOS), is involved in NK cell function, we assessed the role of ICOS in NK cell-mediated cytotoxicity and cytokine production. In addition, to determine whether ICOS contributes to the elimination of tumors in vivo, we examined the tumor growth survival of mice injected with a tumor expressing the ICOS ligand, B7RP-1. We found that ICOS was up-regulated by cytokine stimulation in murine NK cells. Consistent with ICOS expression on activated NK cells, ICOS-dependent cytotoxicity and IFN-gamma production were observed, and appeared to require signaling through the phosphoinositide 3-kinase pathway. Interestingly, ICOS-mediated stimulation allowed activated NK cells to kill more efficiently tumor cells expressing MHC class I. Furthermore, fewer metastases appeared in the liver and spleen of mice injected with the ICOS ligand-expressing tumor compared with mice bearing the parental tumor. These results indicate that NK cell functions are regulated by ICOS.     

Efficient uptake and rapid degradation of plasmid DNA by murine dendritic cells via a specific mechanism

In spite of the important roles of dendritic cells in DNA-based therapies, the cellular uptake mechanism of plasmid DNA (pDNA) in dendritic cells is poorly understood. The present study was undertaken to investigate the binding and uptake of pDNA in vitro using a murine dendritic cell line, DC2.4 cells. A significant and time-dependent cellular association of [32P]pDNA with DC2.4 cells was observed at 37 degrees C and this fell markedly at 4 degrees C. The binding and uptake of [32P]pDNA were significantly inhibited by cold pDNA, polyinosinic acid (poly[I]), dextran sulfate, or heparin, but not by polycytidylic acid (poly[C]), dextran, or EDTA, suggesting that a specific mechanism mediated by a receptor like the macrophage scavenger receptor may be involved. The TCA precipitation experiments showed that DC2.4 cells rapidly endocytosed and degraded a significant amount of [32P]pDNA at 37 degrees C and released the degradation products into the medium. The pDNA degradation was also significantly inhibited by poly[I], but not poly[C]. The rate of pDNA degradation by DC2.4 cells was significantly higher than that by macrophages. A confocal microscopic study using fluorescein-labeled pDNA confirmed the rapid internalization and degradation of pDNA by the dendritic cells. Taken together, these results indicate that pDNA is efficiently taken up and rapidly digested by the dendritic cells via a specific mechanism. These findings may suggest the important role of the dendritic cells in the innate immune system for host defense.     

Cadherin-6 Mediates the Heterotypic Interactions between the Hemopoietic Osteoclast Cell Lineage and Stromal Cells in a Murine Model of Osteoclast Differentiation

Osteoclasts are multinucleated cells of hemopoietic origin that are responsible for bone resorption during physiological bone remodeling and in a variety of bone diseases. Osteoclast development requires direct heterotypic cell–cell interactions of the hemopoietic osteoclast precursors with the neighboring osteoblast/stromal cells. However, the molecular mechanisms underlying these heterotypic interactions are poorly understood. We isolated cadherin-6 isoform, denoted cadherin-6/2 from a cDNA library of human osteoclast-like cells. The isolated cadherin-6/2 is 3,423 bp in size consisting of an open reading frame of 2,115 bp, which encodes 705 amino acids. This isoform lacks 85 amino acids between positions 333 and 418 and contains 9 different amino acids in the extracellular domain compared with the previously described cadherin-6. The human osteoclast-like cells also expressed another isoform denoted cadherin-6/1 together with the cadherin-6. Introduction of cadherin-6/2 into L-cells that showed no cell–cell contact caused evident morphological changes accompanied with tight cell–cell association, indicating the cadherin-6/2 we isolated here is functional. Moreover, expression of dominant-negative or antisense cadherin-6/2 construct in bone marrow–derived mouse stromal ST2 cells, which express only cadherin-6/2, markedly impaired their ability to support osteoclast formation in a mouse coculture model of osteoclastogenesis. Our results suggest that cadherin-6 may be a contributory molecule to the heterotypic interactions between the hemopoietic osteoclast cell lineage and osteoblast/bone marrow stromal cells required for the osteoclast differentiation. Since both osteoclasts and osteoblasts/bone marrow stromal cells are the primary cells controlling physiological bone remodeling, expression of cadherin-6 isoforms in these two cell types of different origin suggests a critical role of these molecules in the relationship of osteoclast precursors and cells of osteoblastic lineage within the bone microenvironment.     

Effects of prevention of coprophagy on pregnant mice--is coprophagy beneficial on a balanced diet?

The effects of prevention of coprophagy on reproductive performance were examined in ICR mice. Females were treated with restrainers in order to prevent them from ingesting their feces from day 1 through day 17 of pregnancy. The restrained animals fed a commercial diet did not show any clear adverse effects. In contrast, restrained dams fed a purified diet deficient in vitamin B12 exhibited stillbirths (14%) and abortions (7%). Restrained dams fed a diet lacking in vitamin B12 and folic acid also experienced frequent abortions (27%). In addition, six out of 14 restrained dams (43%) aborted when fed a vitamin B complex-deficient diet. Sham-restrained animals, fed the vitamin B complex deficient-diet, but able to ingest their feces trapped by smaller-mesh floors, escaped these adverse effects. Sham-restrained animals fed the commercial diet, however, showed only a slight improvement in their reproductive performance. In conclusion, coprophagy has nutritional significance as long as the diet is lacking at least B vitamins, especially vitamin B12 and folic acid, whereas it almost entirely loses its nutritional significance when the mouse has access to a balanced diet such as the one made available to the laboratory mice in the present study.