Apoptosis driven infection.

Professional phagocytes like polymorphonuclear neutrophil granulocytes (PMN) and macrophages (MF) kill pathogens as the first line of defense. These cells possess numerous effector mechanisms to eliminate a threat at first contact. However, several microorganisms still manage to evade phagocytic killing, survive and retain infectivity. Some pathogens have developed strategies to silently infect their preferred host phagocytes. The best example of an immune silencing phagocytosis process is the uptake of apoptotic cells. Immune responses are suppressed by the recognition of phosphatidylserine (PS) on the outer leaflet of their plasma membrane. Taking Leishmania major as a prototypic intracellular pathogen, we showed that these organisms can use the apoptotic "eat me" signal PS to silently enter PMN. PS-positive and apoptotic parasites, in an altruistic way, enable the intracellular survival of the viable parasites. Subsequently these pathogens again use PS exposition, now on infected PMN, to silently invade their definitive host cells, the MF. In this review, we will focus on L. major evasion strategies and discuss other pathogens and their use of the apoptotic "eat me" signal PS to establish infection.

Recognition of autologous and allogeneic lymphocytes and tumor cells by human natural killer cells.

The shedding of the mobile Fc receptor (FcR1) and the depletion of the immobile Fc receptor (FcR11) bearing human lymphocytes revealed that human natural killer cells belong to the FcR11-bearing population. Anti-beta-2-microglobulin treatment of the effector cells decreased natural cytotoxicity against some target cells and the detectability of HLA antigens, indicating that histocompatibility antigens or related structures may be involved in natural cytotoxicity. Using a panel of 29 autologous and allogenic PHA-stimulated target cells and peripheral lymphocytes from the same donors as the effector cells, distinct cytotoxic responses against allogeneic and autologous target cells were observed. A computer analysis of selective natural cytotoxicity distinguished seven different groups of target cells that may represent common structures for NK recognition.

Secondary necrotic neutrophils release interleukin-16C and macrophage migration inhibitory factor from stores in the cytosol.

Neutrophils harbor a number of preformed effector proteins that allow for immediate antimicrobial functions without the need for time-consuming de novo synthesis. Evidence indicates that neutrophils also contain preformed cytokines, including interleukin (IL)-1ra, CXCL8 and CXCL2. In the search for additional preformed cytokines, a cytokine array analysis identified IL-16 and macrophage migration inhibitory factor (MIF) as preformed cytokines in lysates from human primary neutrophils. Both IL-16 and MIF are unconventional cytokines because they lack a signal sequence. Using confocal immunofluorescence microscopy as well as western blot analysis of subcellular fractions, IL-16 and MIF were found to be stored in the cytosol rather than in the granules of human neutrophils, which implies an unconventional secretion mechanism for both cytokines. IL-16 is synthesized and stored as a precursor (pre-IL-16). We present evidence that the processing of pre-IL-16 to the biologically active IL-16C is mediated by caspase-3 and occurs during both spontaneous and UV-induced apoptosis of human neutrophils. Although IL-16 processing occurs during apoptosis, IL-16C and MIF release was observed only during secondary necrosis of neutrophils. Screening a panel of microbial substances and proinflammatory cytokines did not identify a stimulus that induced the release of IL-16C and MIF independent of secondary necrosis. The data presented here suggest that IL-16 and MIF are neutrophil-derived inflammatory mediators released under conditions of insufficient clearance of apoptotic neutrophils, as typically occurs at sites of infection and autoimmunity.

Novel multi-probe RNase protection assay (RPA) sets for the detection of murine chemokine gene expression.

Chemokines play an essential role in immune and inflammatory reactions via the recruitment of leukocytes. Studying the role of chemokines in vivo is complicated by the redundancy of their action and by their promiscuous receptor usage. The simultaneous analysis of several chemokines is, therefore, advantageous in order to obtain a comprehensive view of chemokine participation in inflammatory and infectious processes. At present, no multi-probe detection systems are available for the analysis of recently described chemokines. In this study, new multi-probe RNase protection assay (RPA) template sets were developed for the analysis of murine chemokines. Chemokine cDNA fragments were generated by RT-PCR and individually subcloned into the plasmid pGEM-T providing a T7 promotor. In this way, two multi-probe template sets were constructed each containing six chemokine sequences (CXCL12/SDF-1, XCL1/lymphotactin, CCL20/exodus-1, CCL25/TECK, CX3CL1/fractalkine, CXCL1/KC, and CCL20/MDC, CXCL9/MIG, CCL9/10/MIP-1gamma, CXCL13/BLC, CCL12/MCP-5, CCL19/ELC, respectively) and templates for the two house-keeping genes L32 and GAPDH. The evaluation of these RPA template sets in various murine models demonstrated their suitability for the analysis of the above chemokines both under constitutive and infection-induced conditions. To reduce the personal radiation hazard, we found that 32P could be replaced by 33P without any loss of assay-sensitivity. These new RPA multi-probe sets provide valuable tools for the simultaneous quantitative determination of gene expression of multiple murine chemokines of both constitutive and inducible type.

An immunofluorescent method for identifying individual IFN-gamma-producing lymphocytes.

An immunofluorescent staining method was developed for detecting human IFN-gamma-producing cells in single cell suspensions. Mononuclear leukocytes, stimulated in vitro to produce IFN-gamma, were fixed and made permeable. The cytoplasmic presence of IFN-gamma was visualized by indirect immunofluorescence using IFN-gamma-specific mouse monoclonal antibodies. The staining was found to be specific for IFN-gamma and allowed the detection of newly synthesized rather than internalized IFN-gamma molecules. The cytoplasmic fluorescence appeared locally in a polar, juxtanuclear position, which overlapped the Golgi apparatus, probably reflecting the glycosylation site of the newly formed IFN-gamma molecules. Two-colour staining experiments showed that the method is useful not only for the detection and enumeration but also for the phenotypic characterization of IFN-gamma-producing cells.

Improved technique for cannulation of the murine thoracic duct: a valuable tool for the dissection of immune responses.

Several experimental approaches have been used in the past for the cannulation of the thoracic duct in mice. Most, however, are characterized by a modest reproducibility and a low lymph yield. Here, we describe a cannulation technique modified with respect to the anesthesia, the use of a silicone cannula and a simple and efficient intraabdominal fixation of the drain. Surgery averaged 45 min with an intra- and postoperative mortality rate of zero. Postoperatively, mice were given access to an exercise wheel allowing increased mobility and consequently a good lymph flow, thus maintaining the function of the cannula. The mice yielded a mean of 29.3 ml/24 h (range 8-40 ml) thoracic duct lymph, which contained a mean of 2.2 x 10(6) lymphocytes/ml during the first 24 h, decreasing to 0.1 x 10(6) lymphocytes/ml on the 2nd day after cannulation. Patency of the cannulae was 100% after 3 days. Interestingly, we have detected strain dependent differences in the anatomy of the thoracic duct in the mouse and these need to be considered when cannulation procedures are attempted.

Generation of species-specific DNA probes for Leishmania aethiopica.

We report here the cloning of kinetoplast DNA (kDNA) sequences from Leishmania aethiopica in order to develop a specific and sensitive method for the identification of the parasite. Analysis of the cloned kDNA sequences showed different taxonomic specificities demonstrating sequence diversity within the kinetoplast DNA. Cloned whole minicircle hybridized with all Old World Leishmania species tested. Some cloned fragments of minicircle kDNA hybridized with Leishmania species causing cutaneous leishmaniasis in the Old World, but not with the viscerotropic species. Two L. aethiopica-specific clones were found. These clones hybridized with all L. aethiopica isolates tested, but did not react with other Leishmania species. The nucleotide sequence of the L. aethiopica-specific R3 clone is presented. Clones hybridizing with only some of the L. aethiopica isolates were also identified, although none of them showed specificity only for isolates causing localized (LCL) or diffuse (DCL) form of cutaneous leishmaniasis in Ethiopia.

Lectin-dependent cellular cytotoxicity by human lymphocytes is blocked by monoclonal antibodies to the sheep red cell receptor.

Investigating the functional effects of anti-T cell monoclonal antibodies (obtained through the Second International Workshop on Human Leucocyte Differentiation Antigens), antibodies to the sheep red cell receptor (CD2) were found to block lectin-dependent cytotoxicity. Blocking was seen with all anti-CD2 reagents tested regardless of epitope specificity, immunoglobulin subclass or other factors. Antibodies to other T cell differentiation antigens had no effect.

In vivo blocking of L-selectin rescues BALB/c mice from fatal Leishmania major infection.

Susceptibility and resistance to experimental Leishmania major (L. major) infection in mice are associated with a Th2- or Th1-type response, respectively. We have previously shown that immunological events occurring within the first 24 h after infection in the lymph node (LN) draining the site of parasite challenge are critical for the development of either type of T-cell responses. In the present study we manipulated these events by preventing the entry of naive lymphocytes into the draining LN by injecting BALB/c mice with a single dose of the anti-L-selectin mAb MEL-14 one day prior to infection with L. major. In contrast to control BALB/c mice, in MEL-14 treated animals the primary lesion healed 12 weeks after infection. The parasite load in the spleen and lymph nodes of MEL-14 treated mice was significantly reduced. The healing was found to be associated with an increased production of IFN-gamma and with a decrease in IL-4 production by LN cells. We observed a dramatic decrease in cellularity in the draining LN in Mel-14 treated L. major-infected mice within the first week of infection. Moreover, the cells in the LN of MEL-14 treated mice were highly enriched in activated cells as well as in cell influx in the draining LN after local L. major infection of BALB/c mice prevents fatal disease. The data suggest the MEL-14-induced enrichment of the draining LN in memory and activated cells is fundamental for the initiation of a protective Th1-type response.

The use of DNA hybridization for the detection of Leishmania aethiopica in naturally infected sandfly vectors.

Hybridization with kinetoplast deoxyribonucleic acid (kDNA) probes was used to detect Leishmania aethiopica in naturally infected sandflies in south-west Ethiopia, an endemic area for cutaneous leishmaniasis. 396 sandflies were dissected; microscopy revealed flagellates in the midgut of 5 Phlebotomus pedifer. The infecting flagellates were confirmed as L. aethiopica by isoenzyme typing. Gut specimens for all dissected sandflies were hybridized with total L. aethiopica kDNA as well as with a cloned kDNA probe specific for L. aethiopica. Samples from sandflies which were found to be infected microscopically also hybridized with the L. aethiopica kDNA probes. One additional sandfly hybridized but was not shown to be infected by microscopical examination. Hybridization experiments with 65 whole squash-blotted sandflies gave results that correlated very well with results obtained using microscopy. Our results indicate that DNA probing is a useful method to detect Leishmania infection in sandfly midguts as well as in whole squash-blotted sandflies, and can be used to follow changes of infection rate. DNA probing is therefore an alternative to microscopy in large-scale epidemiological studies as well as monitoring control programmes aimed at human leishmaniasis.

Detection of cutaneous Leishmania infection in paraffin-embedded skin biopsies using the polymerase chain reaction.

In this study the polymerase chain reaction (PCR) with previously developed oligonucleotide primers was used to detect Leishmania aethiopica in paraffin-embedded skin biopsy specimens. The Leishmania-specific 120 base pair fragment of the kinetoplast deoxyribonucleic acid (kDNA) minicircles has been amplified from all parasitologically or histologically confirmed cases of cutaneous leishmaniasis (CL), as demonstrated by gel electrophoresis and hybridization with L. aethiopica kDNA. Control specimens from patients with skin diseases other than CL were all negative. Using PCR, Leishmania were demonstrated in the skin lesions of 7 cases in a group of 40 patients in whom the parasites could not be demonstrated by histopathology or culture in vitro although lesions were clinically suggestive of CL. These data indicate that PCR, carried out on DNA extracted from formalin-fixed and paraffin-embedded tissue specimens, is a valuable method for the diagnosis of CL, especially in chronic cases where the parasite load in the lesion is low.

Cutaneous leishmaniasis in south-western Ethiopia: Ocholo revisited.

The borough of Ocholo, on the western side of the Ethiopian Rift Valley, is an endemic focus for Leishmania aethiopica infection and has been surveyed thrice between 1987 and 1990. In 1989, 3022 inhabitants (> 95% of the population) were interviewed and examined. The overall prevalence of localized cutaneous leishmaniasis (LCL) was 3.6-4.0%, with a peak value of 8.5% in the 0-10 years old age group. In half of the patients the active disease was estimated to last for 9.6 +/- 6 months; in 10%, it exceeded 3 years. Scars of LCL were present in 34.3% of the residents. Leishmanin skin tests were positive in 54% of 120 school-children without signs of the disease. Therefore, in Ocholo a minimum of 71.6% of the population has been exposed to L. aethiopica infection. Two cases of the diffuse form of cutaneous leishmaniasis were observed. In this highland biotope, Phlebotomus pedifer was found to be the major, and possibly the only, vector for L. aethiopica.

IFN-gamma is not the only mediator of suppressed myelopoiesis produced by mononuclear cells from aplastic anemia patients.

Peripheral blood mononuclear cells (PBMC) from patients with aplastic anemia (AA) and healthy donors were compared with regard to their ability to produce soluble factors with inhibitory activity on in vitro granulopoiesis (GM-CFC). Although PBMC from AA patients produced enhanced levels of IFN-gamma as compared to controls, this lymphokine was found not to be the main inhibitor of in vitro granulopoiesis. Other, non-IFN related factors were potent inhibitors of both the mature and the immature precursors for GM-CFC, could act across the species barrier and were of low molecular weight. Also PBMC from healthy donors produced a non-IFN mediated GM-CFC inhibitory factor, but to a lesser degree and acting only on one type of myeloid precursors. The possible implications of these findings in relation to the etiology of AA will be discussed.

Interferon-gamma-dependent mechanisms of mycobacteria-induced pulmonary immunopathology: the role of angiostasis and CXCR3-targeted chemokines for granuloma necrosis.

The mechanisms leading to granuloma caseation, a hallmark of tuberculosis (TB) in humans, are poorly understood. Lung histopathology of C57BL/6 (WT) mice 16 weeks after aerosol infection with Mycobacterium avium strain TMC724 is uniquely characterized by centrally necrotizing granulomas, strongly resembling human TB lesions. However, IFN-gamma-deficient (GKO) and IFN-gamma-receptor-deficient (GRKO) mice did not develop granuloma necrosis following M. avium infection. Comparison of differentially expressed genes in infected WT and GKO lungs by DNA microarray and RNase protection assays revealed that the angiostatic chemokines CXCL9-11 were significantly reduced in GKO mice. In contrast, angiogenic mediators such as angiopoietin and vascular endothelial growth factor, and angiogenic chemokines such as CXCL2, CCL3, and CCL4, remained unchanged or were expressed at higher levels than in infected WT mice, suggesting impaired neovascularization of the granuloma as a possible mechanism for caseation in WT mice. Granuloma vascularization was significantly decreased in central, but not peripheral, areas of granulomas of infected WT compared to GKO mice. In contrast to GRKO mice, WT mice showed signs of severe hypoxia in cells immediately surrounding the necrotic core of granulomas as measured immunohistochemically with a reagent detecting pimonidazole adducts. To test the hypothesis that CXCR3, the common receptor for the angiostatic chemokines CXCL9-11, is involved in granuloma caseation, histomorphology was assessed in M. avium-infected mice deficient for CXCR3 (CXCR3-KO). 16 weeks after infection, these mice developed caseating granulomas similar to WT mice. We conclude that IFN-gamma causes a dysbalance between angiostatic and angiogenic mediators and a concomitant reduction in granuloma vascularization, but that CXCR3-targeted chemokines are not sufficient to induce granuloma necrosis in a mouse model of mycobacteria-induced immunopathology.

Interferon and butyrate treatment leads to a decreased sensitivity of NK target cells to lysis by homologous but not by heterologous effector cells.

Human K-562 and HHMS cells were pretreated with human recombinant interferon (IFN)-gamma and used as targets in NK assays against human and murine effector cells. A protective effect against NK lysis was observed only in the homologous assay, whereas no change or even a slight increase in NK sensitivity against heterologous effector cells was found. In cold target inhibition experiments IFN-treatment of K-562 cells led to a decrease in their capacity to act as competitors in the homologous NK assay, leaving their inhibitory capacity unaltered in the heterologous assay. In accordance with results observed using human NK targets, murine YAC-1 cells treated with mouse recombinant IFN-gamma did not lose their susceptibility to human NK cells. However, they were markedly less susceptible to lysis mediated by murine effectors. Butyrate, another compound causing decreased sensitivity of K-562 cells for human natural killing, also failed to reduce the susceptibility against murine NK cells. The results indicate that the NK-resistant tumor target phenotype caused by IFN or differentiation-inducing agents can only be detected by homologous but not by heterologous effector cells. This suggests that major differences exist between the inter- and intraspecies NK killing mechanisms.

Leishmania major infection: the overture.

Local infection of mice with Leishmania major results in either healing or death depending on the preferential action of Th1 or Th2 T helper cells, respectively. Although the parasite-induced T-cell responses and their consequences for the disease are well understood, relatively little is known about the initial events that kindle the adaptive immune response. Werner Salbach and Tamás Laskay here discuss how differences in parasites spreading from the site of infection to different immune organs during the first 10-24 hours and, in consequence, the 'where and when' of the first encounter of Leishmania with the cells of the immune system may well be the starting point for the development of resistance or susceptibility.

Natural killer cells participate in the early defense against Leishmania major infection in mice.

In this study the role of natural killer (NK) cells in the course of experimental Leishmania major infection was investigated. NK cells in genetically resistant C57BL/6 mice were depleted by in vivo administration of anti-asialo-GM1 or anti-NK1.1 antibodies. A marked exacerbation of the infection was found in the NK-depleted mice within the first two weeks of infection. Both the local tissue swelling and the number of parasites in the lesions were significantly higher than in normal animals. Lymph node cells taken from infected NK-depleted mice released less interferon-gamma (IFN-gamma) when cultured in vitro. As an alternate approach we have used poly I:C treatment in order to activate NK cell activity in vivo in BALB/c mice, which are genetically susceptible to L. major infection. Poly I:C treatment led to milder symptoms and to a significantly lower parasite burden in the early course of infection. Lymph node cells from infected and poly I:C-treated BALB/c mice released higher amount of IFN-gamma in vitro than cells from control mice. These data show that NK cells are active participants in the non-specific phase of anti-leishmanial activity in the control of parasite multiplication early in the course of L. major infection in mice.

Effect of anti-human pan-T monoclonal antibodies on lymphocyte proliferative and cytotoxic functions.

Effects of anti-human pan-T-specific monoclonal antibodies of the Second International Workshop on Human Leucocyte Differentiation Antigens were investigated in a number of lymphocyte functional tests. Monoclonal antibodies blocking antibody-dependent cytotoxicity (ADCC), PWM-induced IL-2 release, or Con A- and PWM-induced lymphocyte proliferation were found among anti-CD2 and CD3 reagents. Inhibition of lectin-dependent cellular cytotoxicity (LDCC) was found as an exclusive effect of anti-CD2 (the sheep red cell receptor) antibodies. Several anti-CD2s blocked natural killer (NK) activity and/or PWM-induced interferon production. These two effects were exerted by antibodies against epitopes on resting T cells but not by those directed to activation epitopes. The inhibitory activity of individual antibodies in the LDCC and NK tests showed a good correlation. Also, PHA-mediated cytotoxicity (LDCC) and proliferation were in good correlation. Concerning anti-CD3 (T3) reagents, some effects were characteristic for the majority of the antibodies in this group. Namely, induction of proliferation, enhancement of IL-2-dependent cell division, IL-2 consumption by antibody-triggered cells, inhibition of mitogen-induced proliferation but not IL-2 and interferon production were observed. None of the CD3-specific reagents exerted all of these effects. In general, no correlation of the effects with immunoglobulin subclass or CD3 subcluster specificity could be found. Further epitope analysis and affinity data may be required to understand the basis of heterogeneity in functional effects of monoclonal antibodies to the CD3 molecule.