Establishment of stable, cell-mediated immunity that makes "susceptible" mice resistant to Leishmania major

Development of protective immunity in a murine model of melioidosis is influenced by the source of Burkholderia pseudomallei antigens

Melioidosis is a potentially fatal disease caused by the bacterium, Burkholderia pseudomallei. The current study was carried out to determine the mechanisms involved in the development of protective immunity in a murine model of melioidosis. Following intravenous infection with B. pseudomallei, both C57BL/6 and BALB/c mice demonstrated delayed-type hypersensitivity responses and lymphocyte proliferation towards B. pseudomallei antigens, indicating the generation of B. pseudomallei-specific lymphocytes. Adoptive transfer of these lymphocytes to naïve C57BL/6 mice was demonstrated by a delayed-type hypersensitivity response. Mice were not protected from a subsequent lethal challenge with a highly virulent strain of B. pseudomallei, suggesting that a single intravenous dose of the bacterium is insufficient to induce a protective adaptive immune response. Attempts to induce resistance in susceptible BALB/c mice used repetitive low-dose exposure to live B. pseudomallei. Immune responses and resistance following subcutaneous immunization with live B. pseudomallei were compared with exposure to heat-killed, culture filtrate and sonicated B. pseudomallei antigens. Compared to heat-killed B. pseudomallei, significant protection was generated in BALB/c mice following immunization with live bacteria. Our studies also demonstrate that the type of immune response generated in vivo is influenced by the antigenic preparation of B. pseudomallei used for immunization.

Differential subcellular localization of COX-2 in macrophages phagocytosing heat-killed Mycobacterium bovis BCG

Cyclooxygenase-2 (COX-2)-mediated prostaglandin E(2) (PGE(2)) biosynthesis by macrophages downregulates microbicidal activities in innate and acquired immune responses against intracellular bacteria. Previous studies in mice showed that intraperitoneal administration of heat-killed Mycobacterium bovis bacillus Calmette-Guérin (HK-BCG) resulted in induction of splenic PGE(2)-releasing macrophages in 7-14 days. In contrast, HK-BCG induced catalytically inactive COX-2 at relatively high levels in the macrophages within 1 day. In the present study, we found that COX-2 was localized subcellularly in the nuclear envelope (NE) 7 and 14 days after HK-BCG treatment, whereas COX-2 was dissociated from the NE 1 day after treatment. At 1 day after treatment, the majority of COX-2-positive macrophages had phagocytosed HK-BCG. In contrast, no intracellular HK-BCG was detected 7 and 14 days after treatment in COX-2-positive macrophages, where COX-2 was associated with the NE. However, when macrophages phagocytosed HK-BCG in vitro, all COX-2 was associated with the NE. Thus the administration of HK-BCG induces the biphasic COX-2 expression of an NE-dissociated catalytically inactive or an NE-associated catalytically active form in splenic macrophages. The catalytically inactive COX-2-positive macrophages develop microbicidal activities effectively, since they lack PGE(2) biosynthesis.

A primary subcutaneous infection with Paracoccidioides brasiliensis leads to immunoprotection or exacerbated disease depending on the route of challenge

In human and experimental paracoccidioidomycosis the severe disease is characterized by depressed cellular immunity whereas the mild disease is associated with persistent T cell immunity. Since the subcutaneous route of antigen inoculation is an efficient inducer of cellular immunity, we decided to study this route of infection and verify its effect on a lethal secondary infection of susceptible hosts. It was observed that the s.c. infection induces positive delayed type hypersensitivity (DTH) responses in 9 different mouse strains, is a self healing process and susceptible mice develop more intense DTH reactions than resistant mice to Paracoccidioides brasiliensis infection. Unexpectedly, the previous s.c. infection of susceptible mice led to immunoprotection or disease exacerbation depending on the route of fungal challenge. Immunoprotection was achieved after intraperitoneal challenge and was associated with persistent cell-mediated immunity and a mixed type-1/type-2 immunity. Exacerbated disease was found after intravenous challenge, was associated with cellular immunity anergy and prevalent type-2 immune response. As a whole, our work demonstrates that susceptibility to P. brasiliensis infection cannot be ascribed to intrinsic inability to mount cellular immune responses, that a single immunization procedure can result in opposite disease outcomes and immunoprotection can be achieved by a balanced Th1/Th2 immunity.

Low maternal viral loads and reduced granulocyte-macrophage colony-stimulating factor levels characterize exposed, uninfected infants who develop protective human immunodeficiency virus type 1-specific responses

Human immunodeficiency virus type 1 (HIV-1)-specific cellular immune responses are elicited in a proportion of infants born to HIV-1-infected mothers and are associated with protection against vertical transmission. To investigate correlates of these HIV-1-specific responses, we examined levels of the immune activation markers neopterin, beta(2)-microglobulin (beta(2)-m), and soluble l-selectin (sl-selectin); the immunomodulatory and hematopoietic factors interleukin-7 (IL-7), stromal-cell-derived factor 1 alpha (CXCL12), and granulocyte-macrophage colony-stimulating factor (GM-CSF); and the immunoregulatory cytokine IL-10 among a group of newborns born to HIV-1-positive mothers who did not receive any antiretroviral drugs for prevention of perinatal HIV-1 transmission. Cellular immune responses to HIV-1 envelope (Env) peptides were also measured. We aimed to determine whether newborns who elicit HIV-1-specific cellular immune responses (Env(+)) and those who lack these responses (Env(-)) exhibit unique immune features. Our data confirmed that no Env(+) infants acquired HIV-1 infection. Among exposed, uninfected infants, Env(+) infants had reduced immune activation (as measured by beta(2)-m and sl-selectin levels in cord blood plasma) compared to Env(-) infants as well as reduced GM-CSF levels in cord blood plasma. There was also a reduced ability of cord blood mononuclear cells to be induced to produce GM-CSF among Env(+) infants. Maternal viral load was lower in Env(+) infants, suggesting that exposure to low levels of antigen may be responsible for priming the protective responses. These findings suggest that infants who are able to develop apparently protective HIV-1-specific cellular immune responses have immunological features and viral exposure histories that distinguish them from their nonresponder counterparts, providing new insights into the development of HIV-1 protective immunity.

Immunologic response enhances atherosclerosis-type 1 helper T cell (Th1)-to-type 2 helper T cell (Th2) shift and calcified atherosclerosis in Bacillus Calmette-Guerin (BCG)-treated apolipoprotein E-knockout (apo E-/-) mice

Although immunocompetent hosts develop protective type 1 helper T cell (Th1) responses in mycobacterial infections, seroepidemiologic studies show that patients with atherosclerosis commonly express high antibody titers against mycobacterial heat shock protein (HSP) 65 and may develop a nonprotective type 2 helper T cell (Th2) response and advanced disease. These studies were undertaken to define mycobacterial dose requirements and kinetics for development of antibodies to HSP65, the Th1 to Th2 shift of immune response, and calcified atherosclerotic lesion development in the apo E-/- mouse. Fourteen-week apo E-/- female mice were treated intraperitoneally (ip) with heat-killed M. bovis Bacillus Calmette-Guerin (BCG), and 14 days later, cross-sections from the ascending aortas were stained for measurement of lesion size and calcium deposition. At 14 days, 0.01-mg BCG induced Th1 responses against HSP65. In contrast, 1-mg BCG induced splenic PGE2-releasing macrophages with a Th1-to-Th2 shift of responses to HSP65, which was PGE2-dependent. Treatment with 1-mg BCG significantly lowered bone density with increases in marrow osteoclastogenesis and development of calcified lesions in the aorta. At 14 days, 0.01-mg BCG induced Th1-dependent HSP65 responses and did not advance atherosclerosis. In contrast, for 1-mg BCG, a PGE2-dependent Th1-to-Th2 shift of responses to HSP65 and evidence of bone resorption are associated with advanced calcified atherosclerotic lesions.

Immunological dysfunction, vaccination and Gulf War illness

One candidate cause of Gulf War illness is vaccination against infectious diseases including medical counter-measures against biological weapons. One influential theory has suggested that such mass-vaccination caused a shift in immune response to a Type 2 cytokine pattern (Th2), which it was suggested was accompanied by a chronic fatigue syndrome-like illness. This article critically appraises this theory. We start by examining epidemiological evidence, which indicates that single vaccines are unlikely to be a substantial cause of Gulf War illness, but that there was a modest relationship with multiple vaccines, which was strongest in those vaccinated while deployed to the Gulf. These relationships may be affected by recall bias. We conclude by examining the results of immunological studies carried out in veterans or in a relevant setting in vitro. The balance of evidence from immunological studies on veterans returning from the War, including those developing multi-symptom illness, is that the immune response has not become polarized towards Th2. In summary, the epidemiological evidence for a multiple vaccine effect on Gulf War-related illness remains a potentially important aetiological lead, but mechanistic studies available at this stage do not identify any immunological basis for it.

Immune response and protection assay of recombinant major surface glycoprotein of Leishmania (rgp63) reconstituted with liposomes in BALB/c mice

In this study the ability of recombinant gp63 entrapped in liposomes to induce immune response and protection against L. major infection in susceptible BALB/c mice was studied. Liposomes containing rgp63 (Lip-rgp63) were prepared from egg lecithin and cholesterol using detergent solubilization method. Immunization of BALB/c mice with rgp63 alone conferred a partial protection while entrapment of rgp63 in liposomes significantly increased the rate of protection (P<0.05). The parasite burden of spleen in mice challenged with L. major was significantly (p<0.001) lower in group of mice immunized with rgp63 alone or Lip-rgp63, however, the least parasite burden was seen in Lip-rgp63 group. Both rgp63 alone and Lip-rgp63 elicited significant delayed-type hypersensitivity (DTH) response compared to controls (p<0.01), however, the DTH response of PBS-rgp63 was less than the Lip-rgp63. Titration of anti-Leishmania IgG isotypes (IgG2a/IgG1) showed a preferential Th1 type of immune response only in mice immunized with Lip-rgp63. The results indicate that liposomes might be used as a suitable immunoadjuvant for development of Leishmania vaccine.

A classification of tasks for the systematic study of immune response using functional genomics data

A full understanding of the immune system and its responses to infection by different pathogens is important for the development of anti-parasitic vaccines. A growing number of large-scale experimental techniques, such as microarrays, are being used to gain a better understanding of the immune system. To analyse the data generated by these experiments, methods such as clustering are widely used. However, individual applications of these methods tend to analyse the experimental data without taking publicly available biological and immunological knowledge into account systematically and in an unbiased manner. To make best use of the experimental investment, to benefit from existing evidence, and to support the findings in the experimental data, available biological information should be included in the analysis in a systematic manner. In this review we present a classification of tasks that shows how experimental data produced by studies of the immune system can be placed in a broader biological context. Taking into account available evidence, the classification can be used to identify different ways of analysing the experimental data systematically. We have used the classification to identify alternative ways of analysing microarray data, and illustrate its application using studies of immune responses in mice to infection with the intestinal nematode parasites Trichuris muris and Heligmosomoides polygyrus.

Hyperbaric oxygen therapy reduces the size of Leishmania amazonensis-induced soft tissue lesions in mice

In this study we determined whether exposing mice to hyperbaric oxygen (HBO) would alter various disease parameters of a susceptible mouse strain infected with Leishmania amazonensis. BALB/c mice exposed to HBO (100% O2 at a pressure of 2.5 ATA, 1h before parasite inoculation and subsequently for 20 days) showed significant delay in lesion development and reduction in lesion parasite burdens compared with HBO-unexposed mice. Circulating levels of interferon gamma (IFN-gamma) and tumor necrosis factor (TNF-alpha) were significantly elevated in HBO-exposed as compared to HBO-unexposed mice. Concanavalin A-stimulated lymph nodes cultures from HBO-exposed mice released significantly more IFN-gamma and less interleukin 10 (IL-10) than cultures from HBO-unexposed mice, consistent with a skewed Th1 response. These results demonstrate, for the first time, that HBO can play a pathogen control role during leishmaniasis. Further studies are needed to elucidate whether hyperoxia alone or increased atmospheric pressure alone can exert a similar effect.

Role of interleukin-4 and prostaglandin E2 in Leishmania amazonensis infection of BALB/c mice

The role of cytokines in Leishmania amazonensis experimental infection has not been as well studied as in Leishmania major infection model. Here we investigated the role of interleukin (IL)-4 and PGE(2) in L. amazonensis infection of susceptible BALB/c mice. IL-4 deficient (-/-) or wild-type (+/+) BALB/c mice were infected with different inocula of L. amazonensis. Two weeks after infection with 5x10(6) promastigotes/footpad, the production of interferon (IFN)-gamma upon L. amazonensis antigen stimulation was significantly higher in lymph node cell cultures of IL-4-/- mice than in IL-4+/+ mice. The levels of anti-leishmania IgG2a antibodies were also significantly higher in serum from IL-4-/- mice. In contrast, the levels of IgG1 antibodies were increased in IL-4+/+ mice and almost undetectable in IL-4-/- mice. Despite the increased Th1 response, lesions of IL-4-/- BALB/c mice progressed similarly to those of IL-4+/+ mice upon infection with the 5x10(6) inoculum. However, IL-4-/- mice developed smaller lesions upon infection with 10(5), 10(4) or 10(3) parasites than IL-4+/+ mice. The resistance of IL-4-/- correlated with higher Th1 response, compared to IL-4+/+ upon infection with 10(4)L. amazonensis. IL-4+/+ mice treated with indomethacin, an inhibitor of PGE(2) synthesis, during the first 3weeks of infection developed smaller lesions and lower parasitic load when compared to the control group. The lesions of indomethacin-treated groups contained mostly macrophages without vacuoles and small or absent necrotic areas. These results indicate that IL-4 and PGE(2) are susceptibility factors to L. amazonensis infection.

Leishmania major: low infection dose causes short-lived hyperalgesia and cytokines upregulation in mice

Neural involvement was traditionally associated with leprosy. However, more recent studies have shown the presence of a persistent hyperalgesia in cutaneous leishmaniasis caused by the infection of BALB/c mice with a high dose of Leishmania major. In this study, we report the presence of hyperalgesia within the first two weeks of infection caused by a low dose of the parasite. Using BALB/c mice, we demonstrate the presence of hyperalgesia during the first 10 days of infection as assessed by thermal pain tests. After 10 days these decreased pain thresholds start to recover resulting in similar levels to those in uninfected controls during the third week of infection. This hyperalgesia is accompanied by a sustained upregulation of interleukin-1beta (IL-1beta) and an early upregulation of interleukin-6 (IL-6) which is restored to normal levels after five days of infection. In conclusion, this study shows that, during early infection, the low dose of L. major causes hyperalgesia accompanied by an upregulation of IL-1beta and IL-6 and that these effects are reversed within the first two weeks of infection.

Imprinting of BALB/c mice with low Leishmania infantum parasite dose markedly protects spleen against high-dose challenge

In this study, we investigated in the BALB/c model, the dose-dependent protective potential of previous infection with Leishmania infantum parasites, against a high-dose challenge and showed for the first time that low-dose imprinting conferred substantial spleen resistance. Mice were immunized for 1 month or 5 months by IV route with parasite inocula ranging from 10(4) to 10(7) and from 10(3) to 10(5), respectively, and challenged for 1 month with 3 x 10(7) parasites. Liver protection was directly proportional to the parasite dose used for infection and reached 90-95% whereas, only low doses (< or =10(5)) protected spleen. Maximal spleen resistance (80%) was reached in mice infected for 5 months with 10(5) parasites. In most cases, protection was accompanied in spleen, by restored in vitro responses to Leishmania antigens. Analysis of anti L. infantum isotype responses and in vitro antigen-induced cytokine production, indicated that the acquired protection was irrespective of a Th1/Th2 imbalance.

Balance of IL-10 and interferon-gamma plasma levels in human visceral leishmaniasis: implications in the pathogenesis

BACKGROUND

Leishmaniasis remains a serious public health problem in several parts of the developing world. Effective prophylactic measurements are hampered by imprecise comprehension of different aspects of the disease, including its immunoregulation. A better comprehension of immunoregulation in human VL may be useful both for designing and evaluating immunoprophylaxis.

METHODS

To explore immunoregulatory mechanisms, 20 visceral leishmaniasis (VL) patients were evaluated during active disease and at different periods up to one year after treatment determining their plasma cytokine levels, clinical parameters (palpable spleen and liver) and antibody levels.

RESULTS

Elevated plasma levels of IFN-gamma and of IL-12 p40 were observed during active disease, significantly decreasing after treatment whereas in vitro Leishmania antigen-stimulated IFN-gamma production by PBMC exhibited an inverse pattern being low during disease and increasing steadily thereafter. Absence of IFN-gamma activity is a hallmark of VL. The main candidate for blunting IFN-gamma activity is IL-10, a cytokine highly elevated in plasma with sharp decrease after treatment. Activity of IL-10 is inferred by high levels of anti-Leishmania specific IgG1 and IgG3. TGF-beta had elevated total, but not of active, levels lessening the likelihood of being the IFN-gamma counterpart. Spleen or liver size presented a steady decrease but return to normal values at only 120 days after treatment. Anti-Leishmania IgG (total and subclasses) levels and DTH or Leishmania-stimulated lymphocyte proliferation conversion to positive also present a slow decrease after treatment. IL-6 plasma levels were elevated in only a few patients.

CONCLUSION

Taken together our results suggest that IFN-gamma and IL-10 are the molecules most likely involved in determining fate of disease. After treatment, there is a long delay before the immune profile returns to normal what precludes using plasma cytokine levels as criteria of cure as simpler clinical evaluations, as a palpable spleen or liver, can be used.

Characterization of the B-cell immune response elicited in BALB/c mice challenged with Neospora caninum tachyzoites

Activation of B cells occurring in hosts infected with protozoan parasites has been implicated either in protective or parasite-evasion immune-mediated mechanisms. Intraperitoneal inoculation of Neospora caninum tachyzoites into BALB/c mice induces an acute response characterized by a rapid increase in the numbers of CD69-expressing peritoneal and splenic B cells. This early B-cell stimulatory effect preceded an increase in the numbers of total and immunoglobulin-secreting splenic B cells and a rise in serum levels of N. caninum-specific immunoglobulins, predominantly of the immunoglobulin G2a (IgG2a) and IgM isotypes. Increased numbers of B cells expressing the costimulatory molecules CD80 and CD86 were also observed in the N. caninum-infected mice. The B-cell stimulatory effect observed in mice challenged with N. caninum tachyzoites was reduced in mice challenged with gamma-irradiated parasites. Contrasting with the peripheral B-cell expansion, a depletion of B-lineage cells was observed in the bone-marrow of the N. caninum-infected mice. Intradermal immunization of BALB/c mice with diverse N. caninum antigenic preparations although inducing the production of parasite-specific antibodies nevertheless impaired interferon-gamma (IFN-gamma) mRNA expression and caused lethal susceptibility to infection in mice inoculated with a non-lethal parasitic inoculum. This increased susceptibility to N. caninum was not observed in naïve mice passively transferred with anti-N. caninum antibodies. Taken together, these results show that N. caninum induces in BALB/c mice a parasite-specific, non-polyclonal, B-cell response, reinforce previous observations made by others showing that immunization with N. caninum whole structural antigens increases susceptibility to murine neosporosis and further stress the role of IFN-gamma in the host protective immune mechanisms against this parasite.

DEVELOPMENT AND REGULATION OF CELL-MEDIATED IMMUNE RESPONSES TO THE BLOOD STAGES OF MALARIA: Implications for Vaccine Research

The immune response to the malaria parasite is complex and poorly understood. Although antibodies and T cells can control parasite growth in model systems, natural immunity to malaria in regions of high endemicity takes several years to develop. Variation and polymorphism of antibody target antigens are known to impede immune responses, but these factors alone cannot account for the slow acquisition of immunity. In human and animal model systems, cell-mediated responses can control parasite growth effectively, but such responses are regulated by parasite load via direct effects on dendritic cells and possibly on T and B cells as well. Furthermore, high parasite load is associated with pathology, and cell-mediated responses may also harm the host. Inflammatory cytokines have been implicated in the pathogenesis of cerebral malaria, anemia, weight loss, and respiratory distress in malaria. Immunity without pathology requires rapid parasite clearance, effective regulation of the inflammatory anti-parasite effects of cellular responses, and the eventual development of a repertoire of antibodies effective against multiple strains. Data suggest that this may be hastened by exposure to malaria antigens in low dose, leading to augmented cellular immunity and rapid parasite clearance.

Down-regulation of dendritic cell activation induced by Paracoccidioides brasiliensis

Paracoccidioidomycosis (PCM) endemic in Latin America, is a progressive systemic mycosis caused by Paracoccidioides brasiliensis (Pb). The infection can evolve to different clinical forms that are associated to various degrees of suppressed cell-mediated immunity. With the recognition that DCs are able to initiate response in naïve T cells and that they also participate in Th cell education, the present study was undertaken to check whether DCs interact with P. brasiliensis, as well as to elucidate possible mechanisms and consequences of this interaction. Our results indicate that P. brasiliensis infection and purified gp43, its main antigenic component, lead to down-regulation of MHC-II and adhesion properties of immature DCs. The down-regulation was also observed in LPS-induced DC maturation. In addition, an inhibition of IL-12 and TNF-alpha production by both P. brasileinsis or gp43, was observed in LPS-induced DC maturation. These results suggest that protein, released in great amounts by the fungus, might be used, to reduce the effectiveness of the immune response.

Genes and Susceptibility to Leishmaniasis

Leishmania are digenetic protozoa which inhabit two highly specific hosts, the sandfly where they grow as motile, flagellated promastigotes in the gut, and the mammalian macrophage where they grow intracellularly as non-flagellated amastigotes. Leishmaniasis is the outcome of an evolutionary 'arms race' between the host's immune system and the parasite's evasion mechanisms which ensure survival and transmission in the population. The spectrum of disease manifestations and severity reflects the interaction between the genome of the host and that of the parasite, and the pathology is caused by a combination of host and parasite molecules. This chapter examines the genetic basis of host susceptibility to disease in humans and animal models. It describes the genetic tools used to map and identify susceptibility genes, and the lessons learned from murine and human cutaneous leishmaniasis.

Immunoglobulin G and E responses in various stages of canine leishmaniosis

Pathogenesis in visceral leishmaniosis is associated with depressed cellular immunity and a significant rise of antileishmanial antibodies. We assessed the relative levels of immunoglobulin E anti-Leishmania infantum, together with those of IgG, IgG1 and IgG2, using the enzyme-linked immunosorbent assay (ELISA) test, in non-infected and infected dogs with or without symptoms, and their association with symptoms to differentiate the stages of the infection. The expression of all immunoglobulins (IgG, IgG1, IgG2 and IgE) was higher in symptomatic dogs than in all other categories. IgG and IgG2 expression was higher in the infected asymptomatic group than in the non-infected group, whereas IgG1 and IgE expression was only higher in symptomatic animals. This correlation between the expression of IgG1 and IgE and the pathology of leishmaniosis points to their potential role as markers of the active disease.

B lymphocytes as antigen-presenting cell-based genetic vaccines

Inoculation of plasmid DNA is a simple way to immunize, but it is characterized by low immunogenicity, which has hampered the development of effective DNA vaccines for human use. Here, we discuss how poor immunogenicity can be solved and present our proposal: genetically programmed B lymphocytes as antigen-presenting cell (APC) vaccines. First, we demonstrate that mature B lymphocytes take up plasmid DNA spontaneously, i.e., in the absence of any facilitating molecule or event, spontaneous lymphocyte transgenesis. Second, we demonstrate that transgenic B lymphocytes are easily and reproducibly turned into functional APCs with dual characteristics: upregulation of costimulatory molecules and endogenous synthesis of antigen. Used as immunogens in mice, transgenic B lymphocytes induce robust and long-lasting T-cell immunity after single intravenous injection. Surprisingly, immunity and protection against lethal virus challenge can be obtained with a single intravenous injection of 3 x 10(2) transgenic lymphocytes. The new approach is discussed relative to the advantage of targeting secondary lymphoid organs with genetically programmed B lymphocytes and the advantage offered with respect to low antigen dose. We suggest that these properties reflect on simple characteristics, such as time synchronization and initial localization to secondary lymphoid organs of APCs endowed with protracted synthesis and presentation of antigen to T cells.

Re-examination of the immunosuppressive mechanisms mediating non-cure of Leishmania infection in mice

The interleukin (IL)-4 driven, polarized T-helper 2 cell (Th2) response that controls non-healing infection with Leishmania major in BALB/c mice has long been embraced as the underlying principle with which to consider the pathogenesis of non-healing and systemic forms of leishmaniasis in humans. The inability, however, to reveal a Th2 polarity associated with non-curing clinical disease has suggested that alternative cells and cytokines are involved in susceptibility. In this review, various mouse models of non-curing infection with L. major and other Leishmania species are re-examined in the context of the suppression mediated by IL-10 and regulatory T (Treg) cells. These activities are revealed in L. major-infected BALB/c IL-4 knockout (KO) and IL-4Ralpha KO mice and especially in non-cure resistant mice that do not default to a Th2 pathway as a result of inherent defects in Th1 differentiation. In contrast to the extreme BALB/c susceptibility arising from an aberrant Th2 response, non-cure in resistant mice arises from an imbalance in Treg cells that are activated in the context of an ongoing Th1 response and whose primary function may be to suppress the immunopathology associated with persistent antiparasite responses in infected tissues.

The development of effector and memory T cells in cutaneous leishmaniasis: the implications for vaccine development

Leishmania major infections induce the development of a CD4(+) T-helper 1 (Th1) response that not only controls the primary infection but also results in life-long immunity to reinfection. How that immunity is maintained is unknown, although because of the existence of infection-induced immunity, there has been an assumption that the development of a vaccine against leishmaniasis would be relatively easy. This has turned out not to be the case. One problem has been the finding that a large part of the immunity induced by a primary infection depends upon the presence of persistent parasites. Nevertheless, there are ample situations where immunologic memory persists without the continued presence of antigen, providing the prospect that a non-live vaccine for leishmaniasis can be developed. To do so will require an understanding of the events involved in the development of an effective protective T-cell response and, more importantly, an understanding of how to maintain that response. Here, we review work from our laboratory, describing how Th1 cells develop in L. major-infected mice, the nature of the memory T cells that provide protection to reinfection, and how that information may be utilized in the development of vaccines.

The immunological challenge to developing a vaccine to the blood stages of malaria parasites

Twenty-one years after malaria antigens were first cloned, a vaccine still appears to be a long way off. There have been periods of great excitement, and in model systems, subunit vaccine homologs can induce robust protection. However, significant challenges exist concerning antigenic variation and polymorphism, immunological non-responsiveness to individual vaccine antigens, parasite-induced apoptosis of immune effector and memory cells, and immune deviation as a result of maternal immunity and alterations of dendritic cell function. Novel approaches will be required. This review addresses some of the approaches that might present malaria antigens in a way designed to induce superior immune responses or that target novel conserved epitopes. Cell-mediated immunity, acting independently of antibody, may exert potent anti-parasite effects, and identification of multiple target antigens/epitopes could lead to the development of vaccines with profound efficacy.

Low dose Leishmania major promotes a transient T helper cell type 2 response that is down-regulated by interferon gamma-producing CD8+ T cells

An unresolved issue in the field of T helper (Th) cell development relates to the findings that low doses of antigen promote Th2 cell development in vitro, whereas several classic in vivo studies suggest the opposite. Here we resolve this paradox by studying the early immune response in mice after infection with different doses of Leishmania major. We found that low parasite doses induced a Th2 response in C57BL/6 (B6) mice, whereas high doses induced a Th1 response. However, the Th2 response in low dose–infected mice was transient and the animals healed. The appearance of a Th1 response after low dose infection was dependent upon the concomitant activation of interferon γ–producing CD8⁺ T cells. In the absence of CD8⁺ T cells, the Th2 response was maintained. However, either neutralization of interleukin (IL)-4 or administration of IL-12 promoted a Th1 response after low dose infection of CD8-deficient mice, indicating that the required role for CD8⁺ T cells was limited to modulation of CD4⁺ T cell responses. Thus, the discrepant results seen between in vivo and in vitro studies on the effects of antigen dose on Th cell differentiation may depend upon whether CD8⁺ T cells participate in the immune response.

Vaccination with phosphoglycan-deficient Leishmania major protects highly susceptible mice from virulent challenge without inducing a strong Th1 response

Long-term immunity to Leishmania may require the continued presence of parasites, but previous attempts to create attenuated parasites that persist without causing disease have had limited success. Since Leishmania major mutants that lack lipophosphoglycan and other secreted phosphoglycans, termed lpg2-, persist indefinitely in infected mice without inducing any disease, we tested their ability to provide protection to virulent L. major challenge. In response to leishmanial Ag stimulation, cells from lpg2--infected mice produced minimal levels of IL-4 and IL-10, as well as very low levels of IFN-gamma. Nevertheless, when BALB/c mice infected with lpg2- parasites were challenged with virulent L. major they were protected from disease. Thus, these findings report on attenuated parasites that may be used to induce long-term protection against leishmaniasis and indicate that the immunity induced can be maintained in the absence of a strong Th1 response.

THE HUMAN CYTOKINE RESPONSE TO LEISHMANIA MAJOR EARLY AFTER EXPOSURE TO THE PARASITE IN VITRO

Leishmaniasis is caused by the protozoan parasite Leishmania spp. In murine leishmaniasis, a T helper cell type-I (Th1) response, characterized by the secretion of interferon (IFN)-gamma is necessary for clearing the infection. whereas a Th2 response, accompanied by the production of interleukin (IL)-5, can exacerbate the disease. Moreover, the early cytokine milieu is thought to play an important role in determining the outcome of infection. In human leishmaniasis little is known about this early cytokine response. Because of this, we cocultured human peripheral blood mononuclear cells (PBMC) with Leishmania major in vitro and measured the production of IFN-gamma, IL-5, and IL-10. We also treated PBMC cultures with various cytokines and neutralizing anticytokines. We found that the principal cytokine produced was IFN-gamma and that its production was regulated by IL-10 and IL-12. In contrast, only low levels of Th2 cytokines such as IL-5 were produced. Therefore, the Th1-Th2 dichotomy that exists in inbred strains of mice does not appear to apply to the response of humans to L. major. Rather, Th2 cytokines may play a role in regulating IFN-gamma production.

Induction of immune tolerance by neonatal intravenous injection of human factor VIII in murine hemophilia A

Inhibitory antibody formation is the most serious complication of factor (F)VIII replacement therapy in hemophilia A patients. FVIII-deficient mice were used to study new approaches for induction of immune tolerance. Neither antiFVIII inhibitory antibodies nor antiFVIII IgGs were observed in 13 of 14 adult mice that received 0.05 U g(-1) body weight of human FVIII intravenously within 24 h after birth and repeated injections as adults. In contrast, high FVIII antibody titers (>50 Bethesda Units mL(-1)) developed in seven of 13 mice injected on day 3 postpartum and in all adult mice not treated neonatally. One of nine mice and three of 17 mice developed high-titer antiFVIII inhibitory antibody when they were treated initially with 2-fold (0.1 U g(-1) body weight) and 10-fold higher doses (0.5 U g(-1) body weight) FVIII on day 0, respectively. A human FVIII-specific T-cell proliferative response was absent in splenocytes from neonatally treated mice. The tolerance was FVIII specific because antitoxoid antibodies developed after immunization with tetanus toxoid. Splenocytes failed to proliferate or produce interferon (IFN)-gamma in response to FVIII stimulation, yet still secreted interleukin-2. A proliferative response was restored with exogenous IFN-gamma or interleukin-12, suggesting that lack of inhibitor to FVIII was due to IFN-gamma-dependent anergy. Thus, exposure on day 0 to physiological levels of FVIII antigen might be important for induction of immune tolerance. This immune tolerance model may provide a basis for new approaches to prevention of FVIII inhibitors during replacement therapy.

Intradermal inoculations of low doses of Leishmania major and Leishmania amazonensis metacyclic promastigotes induce different immunoparasitic processes and status of protection in BALB/c mice

In order to simulate the natural long term parasitisms which may occur in mammals infected with Leishmania, cutaneous leishmaniases due to Leishmania major or Leishmania amazonensis were induced using a model based on the inoculation of 10-1000 metacyclic promastigotes into the ear dermis of BALB/c mice. The final outcome of these parasitisms was dependent upon the number of inoculated parasites. Only some of the mice inoculated with ten parasites displayed cutaneous lesions, whereas most mice infected with 100 metacyclics and all mice infected with 1000 metacyclics developed progressive lesions. We found, using the latter experimental conditions, that the onset of the pathology was associated with: (a) parasite multiplication in the inoculation site and the draining lymph node correlating with an increase of the lymph node cell number, especially in L. major-infected mice; and (b) the detection of lymph node cells, at least in part CD4(+) T lymphocytes, able to produce high levels of interferon-gamma, interleukin (IL)-4, IL-10 and IL-13. Thereafter, mice infected by L. major harboured few parasites in the ear and had a 100-fold reduction in lymph node parasite load between 23 and 40 weeks post-inoculation. In contrast, the parasite loads of L. amazonensis-infected mice remained stable in the ear and increased in nodes during the same period of time. Only L. major-infected mice that exhibited cutaneous lesions in the primary site were resistant to the re-inoculation of 1000 metacyclic promastigotes, whereas all L. amazonensis-primary infected mice remained susceptible to a second homologous challenge. These results are the first to document that a status of resistance to re-infection, referred to concomitant immunity, is coupled to the development of primary progressive lesions in L. major-infected BALB/c mice. Such a protective status is absent in L. amazonensis-infected BALB/c mice.

Two waves of antigen-containing dendritic cells in vivo in experimental Leishmania major infection

Dendritic cells (DC) can induce Th1 cell differentiation by producing IL-12. In experimental infection with Leishmania major, DC could differently respond to infection and induce Th1 cells in C57BL/6 but not BALB/c mice, and thus determine the resistance or susceptibility of these mice. We characterized L. major antigen-containing DC in vivo in draining lymph nodes of both strains. Conventional experimental infection is shown to result in two waves of these DC and our data argue against a relevant genetic difference in the DC initiating the anti-parasite Th cell response in these mice. In both strains the first wave of DC presented L. major antigens but was not infected, produced IL-12 but induced disease-mediating Th2 cells upon adoptive transfer. In contrast to current belief, this response was therefore not initiated by infected DC, which were only detected in the second wave. The kinetics of the two waves suggests that DC turnover has an important impact on antigen presentation during infections with complex pathogens.

Whither T-suppressors: if they didn’t exist would we have to invent them?

Arriving at an understanding of the role of suppressor T-cells (regulatory T-cells, CD4(+)CD25+) depends on whether their functional repertoire is somatically selected to be anti-Self or anti-Nonself. Immunologists are ambivalent; often publications espousing opposite views share an author. Here the arguments are detailed that the suppressor repertoire is not somatically selected to be anti-Self, but rather it is anti-Nonself. Therefore, suppression cannot regulate the Self-Nonself discrimination; its function is to regulate the magnitude and class of the anti-Nonself effector response.

The site of Leishmania major infection determines disease severity and immune responses

Inbred strains of mice infected with Leishmania major have been classified as genetically resistant or susceptible on the basis of their ability to cure their lesions, the parasite burden in the draining lymph nodes, and their type of T helper cell immune responses to the parasite. Using the intradermal infection at the base of the tail and the ear pinna, we compared for the first time the above-mentioned parameters in six strains of mice infected with metacyclic promastigotes, and we show that the severity of disease depends greatly on the site of infection. Although the well-documented pattern of disease susceptibility of BALB/c and C57BL/6 mice described for the footpad and base-of-the-tail models of leishmaniasis were confirmed, C3H/HeN and DBA/2 mice, which are intermediate and susceptible, respectively, in the tail and other models, were resistant to ear infection. Moreover, in the CBA/H, C3H/HeN, C57BL/6J, and DBA/2 mouse strains, there was little correlation between the pattern of cytokines produced and the disease phenotype observed at the ear and tail sites. We conclude that the definition of susceptibility and the immune mechanisms leading to susceptibility or resistance to infection may differ substantially depending on the route of infection.

Cytokines, chemokines, and cell adhesion molecules in inflammatory myopathies

The inflammatory myopathies include dermatomyositis (DM), polymyositis (PM), and sporadic inclusion-body myositis (s-IBM). In DM, the main immune effector response appears to be humoral and directed against the microvasculature, whereas in both PM and s-IBM, cytotoxic CD8+ T cells and macrophages invade and eventually destroy nonnecrotic muscle fibers expressing major histocompatibility complex class I. The need for more specific and safer therapies in inflammatory myopathies has prompted researchers to better decipher the molecular events associated with inflammation and muscle fiber loss in these diseases. The complex specific migration of leukocyte subsets to target tissues requires a coordinated series of events, namely activation of leukocytes, adhesion to the vascular endothelium, and migration. Cell adhesion molecules (CAM) and chemokines play a major role in this multistep process. In addition, cytokines by stimulating CAM expression and orchestrating T-cell differentiation also influence the immune response. This review focuses on recent advances in defining the molecular events involved in leukocyte trafficking in inflammatory myopathies. Specific topics include a concise summary of clinical features, pathological findings and immunopathology observed in inflammatory myopathies, background information about cytokines, chemokines and cell adhesion molecules, and the expression of these molecules in inflammatory myopathies.

Skewing of the Th1/Th2 responses in mice due to variation in the level of expression of an antigen in a recombinant BCG system

In spite of rapid developments in the study of mycobacteria during the last two decades, tuberculosis (TB) has maintained its status as the leading killer among all infectious diseases. Extensive evidence exists to support a central role for a T-helper type 1 (Th1) immune response for protection against TB in mice and humans. Bacille Calmette-Guerin (BCG), the only vaccine against TB, although not perfect in its ability to protect against the adult form of TB, is a strong inducer of Th1 responses and is being increasingly used as a delivery vehicle for the presentation of foreign antigens to the immune system. It has been proposed that expression of immunodominant antigens or cytokine genes in BCG can enhance the ability of BCG to induce a Th1 immune response. Since dose of the antigen is considered as one of the parameters that influence the Th cell responses, the level of expression of the candidate antigen should influence the final Th response against the recombinant BCG (rBCG). In the present study, the effect of over-expression of a candidate antigen Antigen 85B (Ag 85B) in a rBCG system, on the Th-priming ability of BCG has been investigated in the murine model. BALB/c mice were immunized with three different rBCG constructs expressing Ag 85B to various levels. Induction of Th1/Th2 responses was analyzed by measuring levels of interferon-gamma (Th1) and interleukin-10 (Th2) in antigen-stimulated splenocyte cultures and by quantifying the antigen-specific IgG2a (Th1) and IgG1 (Th2) antibody responses. By varying the level of expression of Ag 85B, specific immune responses against Ag 85B were observed to range from mixed Th1/Th2 to Th1. However, the BCG-specific immune responses in case of all rBCG-immunized animals remained predominantly Th1.

Coinjection with CpG-containing immunostimulatory oligodeoxynucleotides reduces the pathogenicity of a live vaccine against cutaneous Leishmaniasis but maintains its potency and durability

The inoculation of live, nonattenuated Leishmania major to produce a lesion in a selected site that heals, referred to as leishmanization, is to date the only vaccine against leishmaniasis that has proven to be effective in humans. Its use has been restricted or abandoned entirely, however, due to safety concerns. In an attempt to develop a leishmanization protocol that minimizes pathology while maintaining long-term protection, live parasites were coinjected with CpG-containing immunostimulatory oligodeoxynucleotides (CpG ODNs) alone or in combination with whole-cell lysates of heat-killed L. major promastigotes bound to alum (ALM). C57BL/6 mice infected intradermally by using L. major plus CpG ODN with or without ALM developed few or no dermal lesions and showed an early containment of parasite growth, while mice infected with L. major with or without ALM developed sizable dermal lesions that required up to 10 weeks to heal. The CpG ODNs provoked a transient inflammation that included an early recruitment and accumulation of gamma interferon-producing CD4(+) lymphocytes in the site. Attenuation of the live vaccine did not compromise its ability to confer long-term immunity, as mice receiving L. major and CpG ODN plus ALM were totally protected against reinfection with L. major for up to 6 months. By comparison, the immunity elicited by two efficient nonlive vaccines began to wane by 6 months. Our results suggest that immune modulation using CpG ODNs might be a practical approach to improving the safety of a highly effective live vaccine that has already been widely applied.

Regulation of T helper cell differentiation in vivo by GP43 from Paracoccidioides brasiliensis provided by different antigen-presenting cells

Paracoccidioidomycosis, endemic in Latin America, is a progressive systemic mycosis caused by Paracoccidioides brasiliensis. The infection can evolve into different clinical forms that are associated with various degrees of suppressed cell-mediated immunity. Assuming that the effector immune response is a consequence of the preferential activation of either Th1 or Th2 subsets, in the present work we evaluated whether the nature of antigen-presenting cells (APCs) can influence the Th1/Th2 balance in vivo. It was observed that the injection of mature dendritic cells (DCs), macrophages and B cells primed the mice and induced a proliferation of T cells in vitro. It was seen that DCs from resistant mice stimulated predominantly interleukin-2 (IL-2) and interferon-gamma (IFN-gamma), whereas macrophages activated IL-10, IL-4 and IFN-gamma-secreting T cells and B cells IL-4 and IL-10 only. Results presented here clearly demonstrate that DC drives the development of cells secreting Th1-derived cytokines, whereas B cells induce the differentiation of a Th2 phenotype in vivo.

Impaired expression of inflammatory cytokines and chemokines at early stages of infection with Leishmania amazonensis

Infection of mice with Leishmania major results in disease progression or resolution, largely depending on the genetic backgrounds of the mouse strains. Infection with Leishmania amazonensis, on the other hand, causes progressive cutaneous lesions in most inbred strains of mice. We hypothesized that deficient activation of early immune responses contributes to the pathogenesis in L. amazonensis-infected mice. To distinguish early molecular events that determine the outcome of Leishmania infections, we examined cytokine gene expression in C57BL/6 mice infected with either L. amazonensis or L. major (a healing model). After 2 to 4 weeks, L. amazonensis-infected mice had significantly delayed and depressed expression of inflammatory cytokines (interleukin-12 [IL-12], gamma interferon, IL-1 alpha, IL-1 beta), CC chemokines (CC chemokine ligand 3 [CCL3]/macrophage inflammatory protein 1 alpha [MIP-1 alpha], CCL4/MIP-1 beta, CCL5/RANTES, MIP-2), and chemokine receptors (CCR1, CCR2, CCR5) in foot tissues and draining lymph nodes compared to the expression in L. major-infected controls. These findings correlated with defective T-cell responsiveness to parasite stimulation in vivo and in vitro. Adoptive transfer of L. amazonensis-specific Th1 cells prior to infection overcame the immune defects of the animals, leading to complete control of the disease. Studies with gene knockout mice suggested that IL-10, but not IL-4, contributed partially to compromised immunity in L. amazonensis-infected hosts. The data suggest that there is impairment in multiple immune functions at early stages of infection with L. amazonensis parasites and provide a compelling rationale to explore immune augmentation as an intervention in American cutaneous leishmaniasis.

Factors influencing Leishmania major infection in IL-4-deficient BALB/c mice

The outcome of Leishmania major infection in IL-4-deficient BALB/c mice has been a controversial subject. We have shown that IL-4-deficient BALB/c mice infected with Leishmania major developed progressive lesions and could not contain the replication of the parasites, whereas other studies have reported that IL-4-deficient mice were able to resist infection. Therefore, we examined different factors that can influence the course of Leishmania major infection. We tested different lines of IL-4-deficient BALB/c mice and show that the reported differences in the outcome of infection were not due to the different genetic origin of the embryonic stem cells used to disrupt the IL-4 gene. In addition, we infected IL-4-deficient mice with different isolates of L. major parasites and show that none of the parasite strains tested were cleared, although some of them caused milder pathology. Interestingly, this milder pathology was paralleled by a reduced arginase activity of the parasites. We also tested the influence of age on the course of Leishmania major infection in IL-4-deficient BALB/c mice and show that older mice express a transient resistance. Thus, we conclude that differences in the age of the mice and in the arginase activity of the different isolates of parasites are factors that can influence the non-healing phenotype of IL-4-/- BALB/c mice.

Interleukin 1alpha promotes Th1 differentiation and inhibits disease progression in Leishmania major-susceptible BALB/c mice

Protective immunity against pathogens such as Leishmania major is mediated by interleukin (IL)-12-dependent Th1-immunity. We have shown previously that skin-dendritic cells (DCs) from both resistant C57BL/6 and susceptible BALB/c mice release IL-12 when infected with L. major, and infected BALB/c DCs effectively vaccinate against leishmaniasis. To determine if cytokines other than IL-12 might influence disease outcome, we surveyed DCs from both strains for production of a variety of cytokines. Skin-DCs produced significantly less IL-1alpha in response to lipopolysaccharide/interferon gamma or L. major when expanded from BALB/c as compared with C57BL/6 mice. In addition, IL-1alpha mRNA accumulation in lymph nodes of L. major-infected BALB/c mice was approximately 3-fold lower than that in C57BL/6 mice. Local injections of IL-1alpha during the first 3 d after infection led to dramatic, persistent reductions in lesion sizes. In L. major-infected BALB/c mice, IL-1alpha administration resulted in increased Th1- and strikingly decreased Th2-cytokine production. IL-1alpha and IL-12 treatments were similarly effective, and IL-1alpha efficacy was strictly IL-12 dependent. These data indicate that transient local administration of IL-1alpha acts in conjunction with IL-12 to influence Th-development in cutaneous leishmaniasis and prevents disease progression in susceptible BALB/c mice, perhaps by enhancing DC-induced Th1-education. Differential production of IL-1 by C57BL/6 and BALB/c mice may provide a partial explanation for the disparate outcomes of infection in these mouse strains.

DNA variants in cytokine and NOD2 genes, exposures to infections and risk for Crohn's disease

The incidence and prevalence of Crohn's disease (CD) among children in developed countries is increasing. Although extensive progress has been made in the elucidation of the pathogenesis of the disease, its mechanism remains unknown. CD is likely to be the result of a complex interplay of both genetic and environmental factors (G x E). However, the specific elements underlying these interactions have not been defined. We propose that the underlying pathology of CD may be related to interactions between infections acquired either during intrauterine life and/or early childhood and DNA variants in the cytokine and the NOD2 genes. DNA variants in the latter could confer susceptibility by altering immune development and response to infectious agents. We present a molecular and epidemiological perspective on possible mechanisms underlying G x E. Investigating these and other pathways will be paramount for the appropriate identification of susceptible populations, so that preventive and/or therapeutic interventions could be adequately targeted.

Experimental canine leishmaniasis: evolution of infection following re-challenge with Leishmania infantum

The aim of the study was to assess the clinical, parasitological and immunological effect of a second inoculation of amastigotes in dogs previously inoculated with Leishmania infantum. Three dogs primarily inoculated with amastigotes (Group I) and four with cultured virulent stationary phase promastigotes (Group II) were afterwards re-inoculated with 2x10(9) amastigotes per kg. Three other groups of dogs were used as controls: Group III was infected only once with amastigotes, Group IV only once with promastigotes and Group V was non infected. The animals were followed up by clinical and parasitological examinations, hematological and serum protein analysis, anti-leishmanial antibody levels and proliferative assays of specific peripheral blood mononuclear cells over a period up to 50 months. Parasites were isolated from lymph node of three animals during primary amastigote infection and in five animals (Group I and II) after re-challenge. Group I dogs presented a strong increase of the humoral immune response while Group II animals displayed no significant or significantly low antileishmanial antibodies titres, after re-challenge. The detection, only after challenge, of positive specific lymphoproliferation in two animals of Group II that had the longest primary infection interval (more than 26 months), indicates the requirement of a long time interval to obtain specific lymphocyte sensitization. A previous exposure to virulent cultured L. infantum promastigotes seems to confer some degree of resistance against an amastigote infection.

The immunogenic peptide for Th1 development

Th1 cells play a critical role in the induction of cell-mediated immune responses and eradication of intracellular pathogen. The dose and route of immunization of antigen are also determining factors. It remains unclear what types of immunogenic peptide can induce the Th1 development and how it acts to regulate the immune system. Ag85B (also known as alpha antigen or MPT59) has been shown to be the most potent antigen species yet purified in humans and in mice. Strong Th1 responses have been elicited in vitro from PPD(+) asymptomatic individuals and Ag85B-primed cells of C57BL/6 (I-A(b)) mice. Peptide-25 (aa240-254) of Ag85B is a major Th1 cell epitope in I-A(b) mice. Active immunization of C57BL/6 mice with Peptide-25 can induce the development of CDT4(+) TCRVbeta11(+) and CDT4(+) TCRVbeta11(-)Th1 cells that produce IFN-gamma- and TNF-alpha, and protects against subsequent infection with live Mycobacterium tuberculosis H37Rv IFN-gamma. Peptide-25 has a potent adjuvant activity in both humoral and cell-mediated immune responses that is mediated by Th1 cells. We would propose to designate Peptide-25 as "Th1-inducing peptide".

Parasites and immune responses: memory illusion?

Immunological memory responses to intracellular protozoa and extracellular helminths govern host resistance and susceptibility to reinfection. Humans and livestock living in parasitic disease endemic regions face continuous exposure from a very early age that often leads to asymptomatic chronic infection over their entire lifespan. Fundamental immunological studies suggest that the generation of T-cell memory is driven by tightly coordinated innate and adaptive cellular immune responses rapidly triggered following initial host infection. A key distinguishing feature of immune memory maintenance between the majority of parasitic diseases and most bacterial or viral diseases is long-term antigen persistence. Consequently, functional parasite immune memory is in a continuous, dynamic flux between activation and deactivation producing functional parasite killing or functional memory cell death. In this sense, T-cell immune memory can be regarded as "memory illusion." Furthermore, due to the finite capacity of memory lymphocytes to proliferate, continuous parasite antigen stimulation may exceed a threshold level at some point in the chronically infected host. This may result in suboptimal effector immune memory leading to host susceptibility to reinfection, or immune dysregulation yielding disease reactivation or immune pathology. The goal of this review is to highlight, through numerous examples, what is currently known about T-cell immune memory to parasites and to provide compelling hypotheses on the survival and maintenance of parasite "memory illusion." These novel concepts are discussed in the context of rationale parasite vaccine design strategies.

Protection against Leishmania major infection by oligomannose-coated liposomes

Liposomes coated with neoglycolipids constructed with mannopentaose and dipalmitoylphosphatidylethanolamine (Man5-DPPE) have been shown to induce cellular immunity against antigens encapsulated in the liposomes. To assess whether these neoglycolipid-coated liposomes can elicit protective immune response against challenge infection, effects of immunization with soluble leishmanial antigens encapsulated in the liposomes were evaluated using Leishmania major infection in susceptible BALB/c mice. Intraperitoneal immunization of mice with leishmanial antigens in the Man5-DPPE-coated liposomes significantly suppressed footpad swelling in comparison to the control, non-immunized mice, while progression of the disease was observed in mice administered antigens in uncoated liposomes and those administered soluble antigens alone, as seen with control mice. Similarly, the number of parasites decreased substantially in local lymph nodes of mice immunized with the antigen in the Man5-DPPE-coated liposomes. Protection against L. major infection in the immunized mice also coincided with an elevated ratio of antigen-specific IgG2a/IgG1 antibodies, which is a profile of T helper-type 1-like immune response. Taken together, these results indicate the possibility that Man5-DPPE-coated liposome-encapsulated antigens could serve as a vaccine that triggers protection against infectious disease.

Specific antibody immune response against the parasitic portion of a glutathione-S-transferase fusion protein

The humoral immune response against an Entamoeba histolytica recombinant protein has been investigated. The 628 bp Bam HI-Eco RI DNA fragment (L1b) from the M11 cDNA clone, partially coding for a 220 kDa (L220) protein, was ligated in-frame into the pGEX-3X plasmid vector to produce the fusion protein GST-L1b. BALB/c mice were immunized with different doses of the GST-L1b fusion protein (10-500 microg). GST-L1b doses of 100/50/50, 300, or 500 microg induced an antibody response (IgG1>IgG3, IgG2a>IgG2b) specific for the amoebic part of the fusion protein (L1b). These antibodies were able to recognize the native protein in amoebic total extract. Anti-GST antibodies were not detected. On the other hand, doses of 10/10/10 or 200/100/100 microg induced antibodies able to recognize both GST (IgG2a>IgG1>IgG2b) and L1b (IgG1, IgG2a>IgG3>IgG2b). When mice were immunized with GST alone (100/50/50, 300 or 500 microg), antibodies against GST-L1b or GST were not detected. However, GST doses of 10/10/10 or 200/100/100 microg induced an antibody response able to recognize both GST-L1b and GST. We propose that an immunization protocol similar to the one used in this work may allow induction of high antibody titers specific against the parasite segment of a GST-fusion protein.

CC chemokine receptor 1 enhances susceptibility to Leishmania major during early phase of infection

CC chemokine receptor 1 (CCR1) is expressed on the surfaces of monocytes, lymphocytes, neutrophils and eosinophils. CC chemokine receptor 1 not only regulates leucocyte chemotaxis, but also plays a role in the regulation of Th1/Th2 cytokine responses. To determine the role of CCR1 in regulation of immune response during Leishmania major infection, we analysed the course of cutaneous L. major infection in CCR1-deficient C57BL/6 mice (CCR1-/-) and compared with similarly infected wild-type mice (CCR1+/+). Following L. major infection, CCR1-/- mice developed significantly smaller lesions containing fewer parasites than CCR1+/+ mice. Furthermore, the severity of the inflammation as assessed by the degree of leucocyte infiltration at the site of infection was similar in CCR1+/+ and CCR1-/- mice. Although both groups developed significant antibody responses following L. major infection, CCR1-/- mice produced significantly lower IgE. On day 20 postinfection, LmAg-stimulated lymph node cells from L. major-infected CCR1+/+ and CCR1-/- mice produced comparable levels of IL-12 and IFN-gamma, but those from CCR1-/- mice produced significantly less IL-4 and IL-10. By day 70, lymph node cells from both CCR1+/+ and CCR1-/- mice produced significant amounts of IL-12 and IFN-gamma but low IL-4. At both time points, the draining lymph nodes from CCR1+/+ and CCR1-/- mice contained similar number of leucocytes. These results demonstrate that CCR1 plays a role in pathogenesis of cutaneous L. major infection. Moreover, they also indicate that CCR1 exacerbates L. major infection in C57BL/6 mice by up-regulating Th2-like response rather than inhibiting Th1 development or/and influencing leucocyte chemotaxis.

CD40-CD40 ligand costimulation is not required for initiation and maintenance of a Th1-type response to Leishmania major infection

Although previous studies demonstrated a requirement for CD40-CD40 ligand (CD40L) interaction in the development of resistance to Leishmania infection, we recently showed that mice lacking the gene for CD40L (CD40L(-/-) mice) can control Leishmania major infection when they are infected with reduced numbers of parasites. In this study, we examine the cytokine pattern in healing versus nonhealing CD40L(-/-) mice and investigated whether CD40 activation is required for resistance to reinfection. We observed that CD4(+) cells in healed CD40L(-/-) mice produce high levels of gamma interferon compared to cells from nonhealing, high-dose-inoculated mice. In addition, we observed a higher frequency of interleukin-12 (IL-12)- producing cells and a reduced number of IL-4-producing cells in mice infected with reduced numbers of parasites. Importantly, we found that healed CD40L(-/-) mice are highly resistant to reinfection with a large parasite inoculum. In addition, by comparing the cytokine patterns at an early and late stage of infection in nonhealing CD40L(-/-) mice, we demonstrated that nonhealing CD40L(-/-) mice produce a weak Th1-type response during the early stage of infection, but this response wanes as a Th2-type response emerges during late stages of infection. Anti-IL-4 antibody treatment, starting either at the beginning of infection or at week 4 postinfection enabled CD40L(-/-) mice to control a high-dose infection. Together, these results show that CD40-CD40L interaction, although important for IL-12 production in high-dose infections, is not required for either the development or maintenance of resistance in mice infected with reduced numbers of parasites.

Identification and purification of immunogenic proteins from nonliving promastigote polyvalent Leishmania vaccine (Leishvacin )

Immunogenic proteins from nonliving promastigote polyvalent Leishmania vaccine against American tegumentary leishmaniasis (Leishvacin ), produced by Biobr s (Biochemistry of Brazil ), Montes Claros, State of Minas Gerais, Brazil, were identified and purified by polyacrylamide electrophoresis gel and electroelution. C57BL/10 mice were vaccinated with proteins with estimated molecular weights of 42, 46, 63, 66, 73, 87, 97, and 160kDa in three doses of 30 g of each protein at 15-day intervals combined with 250 microg of Corynebacterium parvum followed by a challenge infection with 10(5) infective promastigotes from Leishmania (Leishmania) amazonensis. The ability of these proteins to induce immune response and protection was analyzed. No statistical difference was observed in the level of IFN-gamma induced by proteins in vaccinated groups in comparison with control groups. Six months after challenge infection, protection levels of 28.57; 42.86; 57.14; 42.86; 42.86, 57.14; 42.86 and 57.14% were demonstrated for each purified protein.

Comparison of Th1/Th2 cytokine profiles of initial wound healing of rats induced by PDCM and e-PTFE

Because periodontal regeneration is vital in the modern treatment of periodontal defects, artificial membranes have become a key component for predictable outcomes. Herein a new ranking system to analyze the expression of different cytokines around regenerative membranes is introduced. Porcine dermal collagen membranes (PDCMs) and GORE-TEX (e-PTFE) membranes were used for implantation in a Sprague Dawley rat model. Tissue samples were harvested at three time intervals (7, 10, and 14 days); then an immunohistochemical ranking process was conducted to determine the intensity of the selected Th1/Th2 cytokines [Th1: interleukin-2 (IL-2) and interferone-gamma (IFN-gamma); Th2: IL-4, IL-10, and IL-13]. The results show that the intensities of IL-2 cytokine in PDCM groups were slightly higher than those of e-PTFE groups but without statistical significance. The level of interferon-gamma in PDCM groups was lower than that of e-PTFE groups, but also without significant differences. However, expressions of Th2 cytokines (IL-4, IL-10, and IL-13) induced by e-PTFE were generally higher than those of PDCM and control groups at all times (Mann-Whitney U test, p < 0.05). In a comparison of the mean ratio of IL-2/IL-4 with the use of the Mann-Whitney U test, data for the PDCM group were generally higher than those of the e-PTFE group, with statistical significance at all time intervals (p < 0.05). A descending order of the intensity ratio of IL-2/IL-4 was PDCM groups > control groups > e-PTFE groups. These findings indicate that the cytokine profiles of PDCM, in connection with the GTR technique, demonstrate a higher trend toward Th1-dominated responses and may protect against periodontal tissue destruction, as compared to the Th2-dominated responses of e-PTFE.