Type 2 nitric oxide synthase (NOS2) is required for the Th1-dependent healing of infections with intracellular microbes, including Leishmania major. Here, we demonstrate the expression and define the function of NOS2 during the innate response to L. major. At day 1 of infection, genetic deletion or functional inactivation of NOS2 abolished the IFNgamma and natural killer cell response, increased the expression of TGFbeta, and caused parasite spreading from the skin and lymph node to the spleen, liver, bone marrow, and lung. Induction of NOS2 was dependent on IFNalpha/beta. Neutralization of IFNalpha/beta mimicked the phenotype of NOS2-/- mice. Thus, IFNalpha/beta and NOS2 are critical regulators of the innate response to L. major.
SummaryNitric oxide (NO) generated by the inducible isoform of NO synthase (iNOS) is required for the resolution of acute cutaneous leishmaniasis in resistant C57BL/6 mice. As is the case in several other infections, the clinically cured host organism still harbors small amounts of live Leishmania major parasites. Here, we demonstrate lifelong expression of iNOS at the site of the original skin lesion and in the draining lymph node of long-term-infected C57BL/6 mice. iNOS activity in the lymph node was dependent on CD4 +, but not on CD8 + T cells. By double labeling techniques, iNOS and L. major were each found in macrophages (F4/80 +, BM-8 +, and/ or MOMA-2 +) and dendritic cells (NLDC-145+), but not in granulocytes or endothelial cells. In situ triple labeling of lymph node sections revealed that "-'30-40% of the L. major foci were associated with iNOS-positive macrophages or dendritic cells. The majority of the L. major foci (60-70%), however, was located in areas that were negative for both iNOS and the macrophage and dendritic cell markers. In L. major-infected C57BL/6 mice, which had cured their cutaneous lesions, administration of t-Nt-iminoethyl-lysine 0.-NIL), a potent inhibitor of iNOS, led to a 104-10S-fold increase of the parasite burden in the cutaneous and lymphoid tissue and caused clinical recrudescence of the disease. Persistent expression ofiNOS and resumption of parasite replication after application oft-NIL was also observed in resistant C3H/HeN and CBA/J mice. We conclude that iNOS activity is crucial for the control of Leishmania persisting in immunocompetent hosts after resolution of the primary infection. Failure to maintain iNOS activity might be the mechanism underlying endogenous reactivation of latent infections with NO-sensitive microbes during phases ofimmunosuppression.
The resolution of infections with the protozoan parasite Leishmania major in mice requires a Th1 response that is closely associated with the expression of IL-12, IFN-γ, and inducible NO synthase. Previous Ab neutralization studies or the use of mice deficient for both TNF receptors suggested that TNF plays only a limited role in the control of parasite replication in vivo. In this study we demonstrate that resistant C57BL/6 (B6.WT) mice locally infected with L. major rapidly succumb to progressive visceral leishmaniasis after deletion of the TNF gene by homologous recombination. A reduction of the parasite inoculum to 3000 promastigotes did not prevent the fatal outcome of the disease. An influence of the altered morphology of secondary lymphoid organs in C57BL/6-TNF−/− (B6.TNF−/−) mice on the course of disease could be excluded by the generation of reciprocal bone marrow chimeras. Although infected B6.TNF−/− mice mounted an L. major-specific IFN-γ response and expressed IL-12, the onset of the immune reaction was delayed. After in vitro stimulation, B6.TNF−/− inflammatory macrophages released 10-fold less NO in response to IFN-γ than B6.WT cells. However, in the presence of a costimulus, e.g., L. major infection or LPS, the production of NO by B6.WT and B6.TNF−/− macrophages was comparable. In vivo, inducible NO synthase protein was readily detectable in skin lesions and draining lymph nodes of B6.TNF−/− mice, but its expression was more disperse and less focal in the absence of TNF. These are the first data to demonstrate that TNF is essential for the in vivo control of L. major.
Intracellular parasites are known to persist lifelong in mammalian hosts after the clinical cure of the disease, but the mechanisms of persistence are poorly understood. Here, we show by confocal laser microscopy that in the draining lymph nodes of mice that had healed a cutaneous infection with Leishmania major, 40% of the persisting parasites were associated with fibroblasts forming the reticular meshwork of the lymph nodes. In vitro, both promastigotes and amastigotes of L. major infected primary skin or lymph node fibroblasts. Compared with macrophages, cytokine-activated fibroblasts had a reduced ability to express type 2 nitric oxide synthase and to kill intracellular L. major. These data identify fibroblasts as an important host cell for Leishmania during the chronic phase of infection and suggest that they might serve as safe targets for the parasites in clinically latent disease.
Epidemiological studies have revealed an association between GB virus C (GBV-C) long-term viraemia and ameliorated HIV disease progression. We have provided evidence that a single protein of GBV-C, the glycoprotein E2, interferes with early HIV replication steps of both X4- and R5-tropic HIV strains. Preincubation with anti-E2 antibody specifically abrogates the inhibitory effect. Results were confirmed by the in-vitro expression of GBV-C E1/E2 encoding RNA.
CD4 and CD8 T lymphocytes are stimulated by GBV-C to secrete antiretroviral factors, inhibiting R5- and X4-HIV strains. As no induction of SDF-1 and no down-regulation of the respective receptor CXCR4 could be observed, it is likely that additional unidentified factors causing inhibition of X4-HIV strains are induced by GBV-C.
Cytokine-inducible (or type 2) nitric oxide synthase (iNOS) is indispensable for the resolution of Leishmania major or Leishmania donovani infections in mice. In contrast, little is known about the expression and function of iNOS in human leishmaniasis. Here, we show by immunohistological analysis of skin biopsies from Mexican patients with local (LCL) or diffuse (DCL) cutaneous leishmaniasis that the expression of iNOS was most prominent in LCL lesions with small numbers of parasites whereas lesions with a high parasite burden (LCL or DCL) contained considerably fewer iNOS-positive cells. This is the first study to suggest an antileishmanial function of iNOS in human Leishmania infections in vivo.
This study tested the hypothesis that mtDNA fragments carry immunostimulatory motifs that naturally induce immune activation by PDC. Genomic and mtDNA induced similar IFN-α production after transfection into PBMCs using the liposomal transfection reagent DOTAP. Shortening of mtDNA to CpG islands enhanced the immunostimulatory activity, based on the presence of unmethylated CpG DNA. Further fragmentation into mtODN, which exhibited similarities to published CpG ODN, resulted in a strong immunostimulatory activity in addition to PDC maturation and migration. The addition of the human cathelicidin LL-37 to CpG islands induced spontaneous PDC IFN-α production. Notably, one phosphodiester mtODN with a double-palindromic structure induced PDC IFN-α production in the absence of DOTAP. Flow cytometry, life-cell, and confocal imaging revealed attachment and spontaneous uptake into PDC, colocalizing, in part, with TLR9 in early endosomal vesicles. This process was accompanied by a moderate but significant PDC maturation in addition to B cell and NK cell activation (P<0.05). Altogether, our data indicate that fragmented mtDNA, which may be released as a consequence of apoptotic, necrotic, and necroptotic cell death, can act as a DAMP. For the first time, our study provides a mechanism how longer and shorter mtDNA fragments can be taken up naturally by the PDC and thus, may contribute to acute and chronic immune activation.
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