Immunogenicity of the P-8 amastigote antigen in the experimental model of canine visceral leishmaniasis

The P-8 proteoglycolipid complex (P-8 PGLC), an amastigote antigen of Leishmania pifanoi, has been demonstrated to induce protection in mouse models, as well as to induce Tc1/Th1-like cellular responses in American cutaneous leishmaniasis patients. Because the immunization with P-8 PGLC in the murine model does not appear to be genetically restricted, we have studied the reactivity of the P-8 PGLC in Leishmania infantum infected dogs. In this study, it is shown that PBMC from experimentally infected dogs (asymptomatic, oligosymptomatic) significantly proliferated in response to soluble leishmanial antigen (SLA) or the P-8 PGLC. Further, quantification of the gene expression induced by the stimulation with P-8 in asymptomatically infected dogs showed an up-regulation of IFN-gamma and TNF-alpha, which were three to 4-fold higher than that induced by soluble Leishmania antigen (SLA). While no measurable induction of IL-10 was observed, low levels of IL-4 mRNA were observed in response to both P-8 and SLA antigens. Thus, our studies establish that P-8 is recognized by infected canines and elicits a potentially curative/protective Th1-like immune response. The identification of Leishmania antigens that elicit appropriate immune responses across different host species (humans, canine) and disease manifestations (cutaneous or visceral) could be an advantage in generating a general vaccine for leishmaniasis.

Leishmanial Amastigote Antigen P-2 Induces Major Histocompatibility Complex Class II-Dependent Natural Killer-Cell Reactivity in Cells from Healthy Donors

Innate mechanisms involving natural killer cells have been implied to play an important role in immunity against Leishmania infection. Previous studies have evaluated responses to three purified amastigote antigens, P-2, P-4 and P-8, of Leishmania pifanoi. The P-4 and P-8 antigens have been demonstrated to induce protection in mouse models, as well as to induce cellular responses in American cutaneous leishmaniasis patients. Cells from Leishmania aethiopica-infected leishmaniasis patients preferentially responded to P-8 and, to a lesser extent, to the cysteine proteinase, P-2. In this study, it is shown that cells from healthy donors, including cells from truly naïve donors (cord blood), could be stimulated to proliferation and cytokine production by P-2. The main proliferating cell types in healthy adult donors were CD16/56(+) and the CD8(+) cells. Blocking of major histocompatibility complex (MHC) class II with alpha-MHC class II antibodies markedly inhibited proliferation and interferon-gamma (IFN-gamma) production, whereas interleukin-10 production was not affected. Experimental evidence indicates that CD4(+) cells were not necessary for the proliferative and IFN-gamma responses; however, an adherent cell population was required. Furthermore, CD16/56(+) cells expressing MHC class II were expanded following P-2 stimulation. The responses to P-2 show a striking similarity to responses induced by the vaccine candidate Leishmania homologue of receptors for activated C-kinase (LACK) in healthy donors. The responses described here may not be desirable when aiming at inducing protective immune responses with a vaccine, and the implications of these results for the development of vaccines against leishmaniasis are discussed.

Evaluation of amastigote reactive cells in human cutaneous leishmaniasis caused by Leishmania aethiopica

Lymphoproliferative responses to three affinity chromatography purified amastigote antigens of Leishmania pifanoi, P-2, P-4 and P-8, were evaluated in peripheral blood mononuclear cells (PBMC) from patients with Ethiopian cutaneous leishmaniasis. Antigen-stimulated cells were analysed for the percentage of CD4+, CD8+ and CD16/56+ cells and the expressed levels of gamma interferon (IFNgamma) and interleukin (IL)-10 were determined in culture supernatants. The amastigote antigens induced cellular responses in leishmaniasis patients with heterologous Leishmania parasite infection. These responses were compared to those of freeze-thawed L. aethiopica promastigote antigen stimulation. The membrane protein (P-8), and to a lesser extent the megasomal/cytoplasmic cysteine proteinase(P-2), induced proliferation with high levels of IFNgamma and IL-10 production in cells from patients with active L. aethiopica lesions. CD16/56+ NK cells were the main cell types induced to proliferate in response to P-8 and P-2 stimulation, followed by CD8+ cell populations. P-4 had no such effect. This contrasts from previous studies of New World human leishmaniasis where P-4 and P-8 were stimulatory. The success of a particular molecule in the induction of a response with a protective phenotype may be dependent on the infecting Leishmania spp. To our knowledge, there are no studies that directly compare the New versus Old World cutaneous leishmaniasis in respect of NK cell and IL-10 responses. Our studies indicate that some leishmanial molecules are recognized across the species, while others are apparently more species specific.

Biochemical and biological characterization of the protective Leishmania pifanoi amastigote antigen P-8

The Leishmania pifanoi amastigote antigen P-8 has been previously shown to induce protective immunity in a murine model of cutaneous leishmaniasis (L. Soong, S. M. Duboise, P. Kima, and D. McMahon-Pratt, Infect. Immun. 63:3559-3566, 1995). As this antigen is of interest for further vaccine studies, the biochemical characterization of P-8 was undertaken. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis, Western-blot analysis, and gel filtration chromatography revealed that P-8 antigen consisted of two proteoglycolipid complexes. The P-8 epitope is associated with the L. pifanoi amastigote-specific glycolipid components found in the two complexes. The P-8 complex 1 (P-8c1) consists of a 56-kDa serine metalloproteinase, apolipoprotein E (derived from fetal bovine serum), and amastigote-specific glycolipids. The P-8 complex 2 (P-8c2) consists of a 31-kDa cysteine proteinase associated with amastigote glycolipids. Biochemical analyses suggest that the P-8 antigenic glycolipids may be distinct from previously described Leishmania glycolipids (glycosylinositol-phospholipids and sphingoglycolipids). Protective immunity studies revealed that P-8c1 (serine metalloproteinase-glycolipid complex) confers comparable protection against infection as immunopurified P-8. The isolated P-8c2 (cysteine proteinase-glycolipid complex) does not provide significant protection, nor does stimulation with P-8c2 result in significant T-cell activation in P-8- or P-8c2-vaccinated mice. Consequently, the P-8c1 complex appears to be the immunodominant component of P-8.

Cellular trafficking in trypanosomatids: a new target for therapies?

Pathogenic trypanosomatids cause a plethora of diseases marked by the lack of efficient vaccines and therapies. As a consequence, studies are being conducted that are geared towards the understanding of basic mechanisms and various biological aspects of these parasites that might be used as targets for new developments in these areas. One such aspect is the understanding of specific cellular trafficking mechanisms that might be attacked with the intention of disease control. In this paper, we give an overview of our current knowledge of cellular targeting mechanisms in trypanosomatids, with special emphasis on our data related to lysosomal targeting of cysteine proteinases in Leishmania.

The immunologically protective P-4 antigen of Leishmania amastigotes. A developmentally regulated single strand-specific nuclease associated with the endoplasmic reticulum

The purified membrane-associated Leishmania pifanoi amastigote protein P-4 has been shown to induce protective immunity against infection and to elicit preferentially a T helper 1-like response in peripheral blood mononuclear cells of patients with American cutaneous leishmaniasis. As this molecule is potentially important for future vaccine studies, the L. pifanoi gene encoding the P-4 membrane protein was cloned and sequenced. Southern blot analyses indicate the presence of six tandemly arrayed copies of the P-4 gene in L. pifanoi; homologues of the P-4 gene are found in all other species of the genus Leishmania examined. DNA-derived protein sequence data indicated an identity to the P1 zinc-dependent nuclease of Penicillium citrinum (20.8%) and the C-terminal domain of the 3' nucleotidase of Leishmania donovani (33.7%). Consistent with these sequence analyses, purified L. pifanoi P-4 protein possesses single strand nuclease (DNA and RNA) and phosphomonoesterase activity, with a preference for UMP > TMP > AMP >> CMP. Double-labeling immunofluorescence microscopic analyses employing anti-binding protein antibodies revealed that the P-4 protein is localized in the endoplasmic reticulum of the amastigote. Northern blot analyses indicated that the gene is selectively expressed in the intracellular amastigote stage (mammalian host) but not in the promastigote stage (insect) of the parasite. Based upon its subcellular localization and single-stranded specific nuclease activity, possible roles of the P-4 nuclease in the amastigote in RNA stability (gene expression) or DNA repair are discussed.

Evidence for a recent mutation giving rise to a truncated copy of a cysteine proteinase gene in Leishmania pifanoi

We have previously identified and characterized two amastigote-specific cysteine proteinases of Leishmania pifanoi. The slightly different isoforms of the more abundant proteinase are coded by a gene family of approximately 20 gene copies, that contain a C-terminal extension characteristic of cysteine proteinases of trypanosomatids. In this gene family, we have detected a copy that codes for a truncated form of this proteinase, lacking the C-terminal extension. Interestingly, when the deletion of a nucleotide that creates a stop codon causing this truncation is disregarded, the translated sequence gives rise to a divergent C-terminal extension that has many conserved amino acids when compared to Leishmania and Trypanosome, suggesting that a recent mutation led to the truncation.

Molecular and biologic characterization of Leishmania parasites implicated in an epidemic outbreak in northwestern Argentina

Leishmania (Viannia) braziliensis and its variants were implicated in the epidemic outbreak of mucocutaneous leishmaniasis that occurred in Salta, northwestern Argentina, in 1985. A total of 24 suspected, untreated cases were evaluated clinically and parasitologically. Four of five stable isolates were consistent with the reference strain of L. (V.) braziliensis as determined by monoclonal antibodies and indirect immunofluorescence or radioimmunobinding assays. Zymodeme analysis in agarose gels showed a close relationship with L. (V.) guyanensis and L. (V.) panamensis. All zymograms obtained with polyacrylamide gels belonged to the subgenus Viannia; the patterns were different from, but very closely related to, the reference strains of L. (V.) braziliensis as determined by dendrogram analysis. Hamsters infected with two isolates showed a pattern consistent with L. (V.) braziliensis. The pattern of development in the gut of Lutzomyia longipalpis was consistent with members of Viannia.

Leishmania pifanoi amastigote antigen P-4: epitopes involved in T-cell responsiveness in human cutaneous leishmaniasis

In experimental murine cutaneous leishmaniasis, the purified Leishmania pifanoi amastigote protein P-4 has been shown to induce significant protection against infection. Further, recent studies examining the response of peripheral blood mononuclear cells (PBMC) from Leishmania braziliensis-infected human patients have demonstrated that the P-4 protein selectively elicits a significant TH1-like response. Because a TH1-like response is associated with cure, epitope studies were conducted to further evaluate the human response to P-4. PBMC from confirmed cutaneous leishmaniasis patients infected with L. braziliensis in Rio de Janeiro, Brazil, an area where the disease is endemic, were examined for T-cell proliferation and/or cytokine production in response to whole-parasite homogenate, isolated P-4 protein, and/or P-4 peptides. Twenty of the 22 patients (91%) examined responded to the native P-4 protein by proliferation and/or gamma interferon (IFN-gamma) production. According to the proliferation data, PBMC from 14 patients (64%) were found to respond to the intact P-4 protein (stimulation index of >/=2.5). Fifty-seven percent of the P-4-responsive patients studied responded to at least one of the P-4 peptides; 11 individual peptides were found to elicit a proliferative response. Of 17 patients examined for cytokine production, no PBMC produced detectable interleukin-4 in response to P-4 protein or peptides. However, PBMC from 14 patients (82%) produced significant levels of IFN-gamma (>/=20 pg/ml) in response to native P-4 protein. Nineteen of the 23 peptides were found to elicit an IFN-gamma response from at least two patients. These data indicate that multiple epitopes spanning the entire P-4 molecule are responsible for the TH1-like immune response observed, indicating that the intact P-4 amastigote molecule, rather than selected peptides, may prove to be the most useful for leishmaniasis vaccine development.

T cell responses to crude and defined leishmanial antigens in patients from the lower Amazon region of Brazil infected with different species of Leishmania of the subgenera Leishmania and Viannia

Amazonian localized cutaneous leishmaniasis (LCL) is caused by parasites of the subgenera Leishmania and Viannia. Respectively, these parasites may cause diffuse cutaneous leishmaniasis (DCL) and mucocutaneous leishmaniasis (MCL). This, together with differing skin test responses, suggests some species-specificity in cell mediated immunity. In this study, T cell responses (proliferative and interferon-gamma) to crude and defined antigens were examined in paired samples pre and post chemotherapy. Untreated L. (L.) amazonensis LCL patients showed lower responses to crude leishmanial antigens than the L. (V.) spp. group. L. (V.) braziliensis antigen was a more potent stimulator of T cell responses than L. (L.) amazonensis antigen in all patient groups. Few positive responses were seen to the L. (L.) amazonensis glycoprotein GP46. A substantial proportion of LCL patients did respond to the L. (L.) pifanoi amastigote antigens A2, and the surface membrane glycoprotein P8. DCL patients were poor responders to all leishmanial antigens, except GP46. In contrast, MCL patients were good responders to all antigens except GP46 and A2. A significant rise in the response to P8 and A2 antigen was seen post treatment across all LCL and MCL patients, indicating that these antigens might provide suitable vaccine candidates.

Leishmania Amastigote Target Antigens: The Challenge of a Stealthy Intracellular Parasite

The development of a defined molecular vaccine against leishmaniasis involves the determination of candidate molecules that elicit protection against infection. As the amastigote stage is the developmental form found in the infected mammalian host, molecules specific to or upregulated in this stage represent potential antigenic vaccine targets. Diane McMahon-Pratt, Peter Kima and Lynn Soong summarize experiments which indicate that immunization with molecules upregulated in the amastigote stage can provide effective protection against infection. In the immunized host, both CD4(+) and CD8(+) T cells appear to be crucial to protection. Studies of antigen presentation of Leishmania-infected macrophages indicate that the amastigote stage can sequester endogenous leishmanial antigen from the major histocompatability complex (MHC) class II presentation pathway. However, evidence indicates that MHC class I presentation may be sustained in the infected macrophage. The effect of these findings on the design of a leishmanial vaccine are considered.

Presentation via the class I pathway by Leishmania amazonensis-infected macrophages of an endogenous leishmanial antigen to CD8+ T cells

CD8+ T cells play a protective role in immunity to cutaneous leishmaniasis. However, it has been unclear how these cells execute this function, since results from several investigations attempting to demonstrate recognition of Leishmania-infected macrophages by CD8+ T cells have been contradictory. In this study, we report the generation of CD8+ T cell lines specific for GP46/M-2, a leishmanial Ag, previously shown to protectively immunize mice against a Leishmania amazonensis challenge. Using T cell cytolysis and IFN-gamma production to assess CD8+ T cell activation, we show that in addition to recognizing mammalian cells transfected with GP46/M-2, these CD8+ T cell lines also recognize macrophages infected with Leishmania amazonensis. MHC class I presentation of GP46/M-2 by infected macrophages can be blocked by treatment with brefeldin A and also by inhibitors of the cytosolic multicatalytic proteasome, N-acetyl-L-leucinyl-L-leucinal-L-norleucinal and N-acetyl-L-leucinyl-L-leucinylmethional. These results suggest that this leishmanial Ag is processed in the macrophage cytoplasm and is presented to CD8+ T cells via the classical pathway of MHC class I presentation. The relevance of these findings as they impact on our understanding of the biology of the parasite within the macrophage is discussed.

Presentation via the class I pathway by Leishmania amazonensis-infected macrophages of an endogenous leishmanial antigen to CD8+ T cells

CD8+ T cells play a protective role in immunity to cutaneous leishmaniasis. However, it has been unclear how these cells execute this function, since results from several investigations attempting to demonstrate recognition of Leishmania-infected macrophages by CD8+ T cells have been contradictory. In this study, we report the generation of CD8+ T cell lines specific for GP46/M-2, a leishmanial Ag, previously shown to protectively immunize mice against a Leishmania amazonensis challenge. Using T cell cytolysis and IFN-gamma production to assess CD8+ T cell activation, we show that in addition to recognizing mammalian cells transfected with GP46/M-2, these CD8+ T cell lines also recognize macrophages infected with Leishmania amazonensis. MHC class I presentation of GP46/M-2 by infected macrophages can be blocked by treatment with brefeldin A and also by inhibitors of the cytosolic multicatalytic proteasome, N-acetyl-L-leucinyl-L-leucinal-L-norleucinal and N-acetyl-L-leucinyl-L-leucinylmethional. These results suggest that this leishmanial Ag is processed in the macrophage cytoplasm and is presented to CD8+ T cells via the classical pathway of MHC class I presentation. The relevance of these findings as they impact on our understanding of the biology of the parasite within the macrophage is discussed.

Role of CD4+ T cells in pathogenesis associated with Leishmania amazonensis infection

Most inbred strains of mice are susceptible to Leishmania amazonensis infection. We have examined the mechanism(s) underlying this generalized susceptibility using mice deficient in T cell development or in the expression of either MHC class I or class II. In contrast to wild-type C57BL/6 (B6) mice that uniformly developed large ulcerating lesions, mice lacking functional CD4+ T cells (due to targeted disruption of genes for either MHC class II trans-activator or I-A beta) showed no signs of lesion development for up to 12 to 14 wk postinfection and contained significantly lower numbers of parasites in lesions. Similarly, both B6 nude and RAG2 -/- mice failed to develop lesions. However, RAG2 -/- mice reconstituted with naive wild-type CD4+ T cells and beta2m -/- mice did develop lesions. Lesions of MHC class II -/- mice contained minimal numbers of CD8+ T cells, a marked reduction of monocytes/macrophages, and evident extracellular parasites. The inability to mount an inflammatory response in MHC class II -/- mice correlated with the failure to produce lymphokines that lead to the recruitment of monocytes/granulocytes. These results demonstrate that CD4+ T cells are the primary lymphocyte subset that mediates cellular infiltration, lesion pathology, and therefore, susceptibility to L. amazonensis infection. The disease-promoting CD4+ T cells in L. amazonensis-infected mice have the characteristics of Th1 cells. The striking differences in the course of infection between MHC class II -/- mice infected with L. amazonensis and Leishmania major suggest that these parasites may have adapted different strategies regarding the CD4-dependent immune response.

Role of CD4+ T cells in pathogenesis associated with Leishmania amazonensis infection

Most inbred strains of mice are susceptible to Leishmania amazonensis infection. We have examined the mechanism(s) underlying this generalized susceptibility using mice deficient in T cell development or in the expression of either MHC class I or class II. In contrast to wild-type C57BL/6 (B6) mice that uniformly developed large ulcerating lesions, mice lacking functional CD4+ T cells (due to targeted disruption of genes for either MHC class II trans-activator or I-A beta) showed no signs of lesion development for up to 12 to 14 wk postinfection and contained significantly lower numbers of parasites in lesions. Similarly, both B6 nude and RAG2 -/- mice failed to develop lesions. However, RAG2 -/- mice reconstituted with naive wild-type CD4+ T cells and beta2m -/- mice did develop lesions. Lesions of MHC class II -/- mice contained minimal numbers of CD8+ T cells, a marked reduction of monocytes/macrophages, and evident extracellular parasites. The inability to mount an inflammatory response in MHC class II -/- mice correlated with the failure to produce lymphokines that lead to the recruitment of monocytes/granulocytes. These results demonstrate that CD4+ T cells are the primary lymphocyte subset that mediates cellular infiltration, lesion pathology, and therefore, susceptibility to L. amazonensis infection. The disease-promoting CD4+ T cells in L. amazonensis-infected mice have the characteristics of Th1 cells. The striking differences in the course of infection between MHC class II -/- mice infected with L. amazonensis and Leishmania major suggest that these parasites may have adapted different strategies regarding the CD4-dependent immune response.

Leishmania-infected macrophages sequester endogenously synthesized parasite antigens from presentation to CD4+ T cells

CD4+ T cell lines raised against the protective leishmanial antigens GP46 and P8 were used to study the presentation of endogenously synthesized Leishmania antigens by infected cells. Using two different sources of macrophages, the I4.07 macrophage cell line (H-2k) which constitutively expresses major histocompatibility complex (MHC) class II molecules, and elicited peritoneal exudate cells, we found that cells infected with Leishmania amastigotes presented little, if any endogenously synthesized parasite antigens to CD4+ T cells. In contrast, promastigote-infected macrophages did present endogenous parasite molecules to CD4+ T cells, although only for a limited time, with maximal presentation occurring within 24 h of infection and decreasing to minimal antigen presentation at 72 h post-infection. These observations suggest that once within the macrophage, Leishmania amastigote antigens are sequestered from the MHC class II pathway of antigen presentation. This allows live parasites to persist in infected hosts by evading the activation of CD4+ T cells, a major and critical anti-leishmanial component of the host immune system. Studies with drugs that modify fusion patterns of phagosomes suggest that the mechanism of this antigen sequestration includes targeted fusion of the parasitophorous vacuole with certain endocytic compartments.

T-cell responsiveness of American cutaneous leishmaniasis patients to purified Leishmania pifanoi amastigote antigens and Leishmania braziliensis promastigote antigens: immunologic patterns associated with cure

Patients suffering from American cutaneous leishmaniasis were studied before therapy (active lesion) and at the end of therapy (cured patients). Assays of lymphocyte proliferative responses of peripheral blood mononuclear cells induced in vitro by Leishmania braziliensis promastigote antigens (Lb) or by three proteins (A-2/P-2, P-4, and P-8) derived from Leishmania pifanoi amastigotes were performed. Antigen-stimulated cells were harvested for CD4 and CD8 phenotype analysis and the levels of gamma interferon (IFN-gamma), interleukin 2 (IL-2) and interleukin 4 (IL-4) produced were also determined. Results show two different patterns of Lb-induced T cell responses: (a) predominance of responding CD4+ cells and mixed type 1 and type 2 cytokine production (IFN-gamma, IL-2, and IL-4) during the active disease, (b) similar proportions of responding CD4+ and CD8+ cells and type 1 cytokine production (presence of IFN-gamma and IL-2 and very low IL-4) at the end of therapy (healed lesions). Thus, this last pattern is probably associated with a beneficial T cell response. The A-2/P-2 amastigote cysteine proteinase provided only marginal (s.i. approximately or = 2.5) T cell stimulation in 25% of patients studied; in contrast, the L. pifanoi P-4 and P-8 amastigote antigens induced significant stimulation (s.i. approximately or = 5) in approximately 50% of the patients. In comparison to Lb-stimulated cultures, lower proliferative responses of T lymphocytes to P-4 or P-8 were observed. However, the P-4- or P-8-stimulated cultures had similar percentages of reactive CD4+ and CD8+ cells, as well as type 1 cytokines (presence of IFN-gamma and IL-2, and low levels or absence of IL-4) in the supernatants both before and at the end of therapy. The consistent induction of apparently beneficial T cell responses by the P-4 and P-8 amastigote glycoproteins points to the possibility that these molecules be considered as candidates for future defined vaccines against leishmaniasis.

Leishmania amazonensis: cultivation and characterization of axenic amastigote-like organisms

Extracellular amastigote-like forms of Leishmania amazonensis can be maintained in axenic culture at 32 degrees C, pH 4.6, with a generation time of approximately 17 hr. This species of Leishmania is of particular interest since it has been associated with cutaneous, diffuse cutaneous, and mucocutaneous forms of the disease. Immunofluorescence, Western and Northern blot analyses, and immunoprecipitation have been used to estimate the expression levels of amastigote or promastigote antigens in axenically cultured amastigotes. In these analyses, monoclonal antibodies (mAbs) specific for either the amastigote (A-1, A-2, P-2, P-4, P-5, P-8) or promastigote (M-2, P-9, and F-4) and a DNA probe that was specific for the amastigote gene encoding the protein reactive with mAb P-4 have been employed. The amastigote-like organisms were infective for peritoneal and J774.G8 macrophages and BALB/c mice. While amastigote-like forms maintained at pH 4.6, 32 degrees C transformed to promastigotes when transferred to pH 7.3, 24 degrees C, transformation of promastigotes to amastigote-like organisms required a period of growth at pH 4.6 24 degrees C prior to transfer to 32 degrees C. This is the first report of the axenic cultivation of L. amazonensis amastigote-like organisms. This species grows in continual culture at a lower pH than any other species characterized to date. These organisms will prove useful in further studies of the biochemistry, immunology, developmental biology, and molecular biology of this parasite.

Disruption of CD40-CD40 ligand interactions results in an enhanced susceptibility to Leishmania amazonensis infection

To study the role of CD40 ligand (CD40L) in the host immune responses against intracellular pathogens, we infected CD40L knockout (CD40L-/-) mice with Leishmania amazonensis. Although wild-type mice were susceptible to infection and developed progressive ulcerative lesions, tissue parasite burdens in CD40L-/- mice were significantly higher. This heightened susceptibility to infection was associated with an impaired T cell and macrophage activation and altered inflammatory response, as reflected by low levels of IFN gamma, lymphotoxin-tumor necrosis factor (LT-TNF), and nitric oxide (NO) production. Furthermore, CD40L-/- mice failed to generate a protective immune response after immunization. These results indicate an essential role of cognate CD40-CD40L interactions in the generation of cellular immune responses against an intracellular parasite.

Leishmania amazonensis: the Asian rhesus macaques (Macaca mulatta) as an experimental model for study of cutaneous leishmaniasis

As a means of assessing the usefulness of the Rhesus macaque (Macaca mulatta) as a nonhuman primate model for studying cutaneous leishmaniasis, monkeys were infected with Leishmania amazonensis. Variation in the level of susceptibility was found; however, animals inoculated with 10(8) promastigotes provided consistent results as indicated by an earlier onset and/or larger size of lesions. Three monkeys, which had recovered from skin lesions, were challenge-infected using the same parasite strain/dose; although these animals remained susceptible to homologous infection, lesion size was smaller and healed faster than in the initial infection. The immunologic features during infection were assessed. Levels of IgM and IgG antibodies to promastigote antigens rose during active infection and then declined; immunoblot analyses indicated that numerous leishmanial antigens (predominately >30 kDa) were recognized. Delayed type hypersensitivity (DTH) responses and proliferative responses (PBL) developed during active infection and/or rechallenge. Circulating peripheral T cell subpopulations varied throughout the course of infection. Initially (6-8 weeks p.i.), CD4+ T cells appear to predominate; subsequently (15-21 weeks p.i.), an increase in CD8+ T cells was observed. Pathologic analyses indicated that lesions contained amastigotes with a mononuclear infiltrate of macrophages, lymphocytes, and plasma cells, and formation of tuberculoid-type granulomas. As the progression and resolution of leishmanial infection in rhesus macaques are very similar to those observed in humans, this primate model could be employed for elucidating the mechanisms of protective immunity in cutaneous leishmaniasis.

Monoclonal antibodies for the identification of New World Leishmania species

Monoclonal antibodies specific for selected species complexes of Leishmania have been employed for the characterization of several representative strains of Leishmania isolated from different hosts and localities in the Americas. In the past 15 years, data have been accumulated concerning (i) the specificities of a number of these monoclonal antibodies and (ii) the antigenic variation (level of the expressed antigenic determinants) occurring among New World Leishmania species or strain variants as recognized by the monoclonal antibodies. This report is an attempt to summarize in brief the data accumulated to date on these points and to indicate the directions for future applications of these specific monoclonal antibodies for identification of leishmanial isolates.

Cloning and expression of a Leishmania donovani gene instructed by a peptide isolated from major histocompatibility complex class II molecules of infected macrophages

The studies reported here describe the isolation of peptides from MHC class II molecules of murine macrophages infected with Leishmania donovani, and the use of the derived peptide sequences to rescue the pathogen peptide donor protein. The isolation of the peptides was carried out by comparing the RP HPLC profile of peptides extracted from infected macrophages with the peptides extracted from noninfected cells. Several distinct HPLC peaks unique to infected macrophages were sequenced. One of the peptides that was not homologous to any known protein was used to instruct the designing of an oligonucleotide sense primer that was used in combination with an oligo dT nucleotide (anti-sense primer) to amplify by PCR a DNA fragment from L. donovani cDNA. The amplified DNA fragment was cloned and used as a probe to screen a L. donovani cDNA library. The cloned gene (Ld peptide gene) has an open reading frame of 525 bp and has no homology with any known protein/gene sequence. Northern blot analyses indicated that the Ld peptide/gene is broadly distributed and expressed among species of the Leishmania genus, in both the amastigote and promastigote life cycle forms. Using the pGEX 2T vector, the gene was expressed and the relationship of the purified recombinant protein with L. donovani was confirmed using both antibody and T cell responses from immunized or infected animals. The gene encodes a 23-kD molecule (Ldp 23) associated with the cell surface of L. donovani promastigotes. In addition, T cells purified from the lymph nodes of BALB/c mice immunized with L. donovani or infected with L. major, and from CBA/J mice infected with L. amazonensis were stimulated to proliferate by the recombinant Ldp 23 and produced high levels of IFN-gamma and no IL 4. This observation suggests that the Ldp 23 is an interesting parasite molecule for the studies concerning the host/parasite interaction because the Th1 pattern of cytokine response that it induces is correlated with resistance to Leishmania infections. These results clearly point to an alternative strategy for the purification of proteins useful for the development of both vaccines and immunological diagnostic tools not only against leishmaniasis but also for other diseases caused by intracellular pathogens.

Leishmania pifanoi amastigote antigens protect mice against cutaneous leishmaniasis

In the search for a leishmaniasis vaccine, extensive studies have been carried out with promastigote (insect stage) molecules. Information in this regard on amastigote (mammalian host stage) molecules is limited. To investigate host immune responses to Leishmania amastigote antigens, we purified three stage-specific antigens (A2, P4, and P8) from in vitro-cultivated amastigotes of Leishmania pifanoi by using immunoaffinity chromatography. We found that with Corynebacterium parvum as an adjuvant, three intraperitoneal injections of 5 micrograms of P4 or P8 antigen provided partial to complete protection of BALB/c mice challenged with 10(5) to 10(7) L. pifanoi promastigotes. These immunized mice developed significantly smaller or no lesions and exhibited a 39- to 1.6 x 10(5)-fold reduction of lesion parasite burden after 15 to 20 weeks of infection. In addition, P8 immunization resulted in complete protection against L. amazonensis infection of CBA/J mice and partial protection of BALB/c mice, suggesting that this antigen provided cross-species protection of mice with different H-2 haplotypes. At different stages during infection, vaccinated mice exhibited profound proliferative responses to parasite antigens and increased levels of gamma interferon production, suggesting that a Th1 cell-mediated immune response is associated with the resistance in these mice. Taken together, the data in this report indicate the vaccine potential of amastigote-derived antigens.

The biosynthesis, processing, and immunolocalization of Leishmania pifanoi amastigote cysteine proteinases

Biosynthesis, enzymatic processing, and immunocytochemical localization of an abundant developmentally regulated cysteine proteinase of Leishmania pifanoi, Lpcys2, were investigated employing axenic cultured amastigotes and monoclonal antibodies specifically recognizing either the mature proteinase or the carboxy-terminal extension domain. Pulse labeling and protein sequence data indicated that a 45-kDa precursor is processed to a 40-kDa intermediate, which is further cleaved to generate the 27-kDa mature enzyme and a 15-kDa COOH-terminal domain. Evidence indicates that proteolytic activity is associated with the intermediate form as well as the mature proteinase. Treatment with selected cysteine but not aspartic acid proteinase inhibitors arrested proteolytic processing of Lpcys2 in vivo and inhibited parasite cell division. Electron microscopic immunolocalization of both catalytic and COOH-terminal domains in L. pifanoi and Leishmania amazonensis amastigotes showed intense labeling of megasomes, indicating that cleavage of the COOH-terminal domain probably occurs in the megasome. A low level of the mature proteinase was also associated with the flagellar pocket and plasma membrane; consistent with this observation, low level secretion of Lpcys2 into the culture medium was detected. Lpcys1, a related, less abundant amastigote-specific cysteine proteinase lacking a comparable COOH-terminal domain, was localized to the flagellar pocket and megasomes. Consequently, enzyme sorting to megasomes does not appear to depend upon the COOH-terminal domain; hence this region of Lpcys2 may not be essential for its intracellular targeting.

Recombinant vaccinia viruses expressing GP46/M-2 protect against Leishmania infection

Leishmania is a genus of parasitic protozoa capable of causing a spectrum of human diseases. The GP46/M-2 membrane glycoprotein has been demonstrated in a murine model system to elicit a protective immune response against infection with Leishmania amazonensis; in highly susceptible BALB/c mice, immunization leads to significant protection against infection. In the present study, for induction of long-term immunological effects, two recombinant vaccinia viruses, derived from the wild type and attenuated variant 48-7 and expressing the GP46/M-2 protein, were constructed; to ensure safety, we used the attenuated vaccinia virus mutant (48-7) as a live vector. Susceptible BALB/c mice immunized with either GP46/M-2-recombinant vaccinia virus were significantly protected against infection with L. amazonensis; 45 to 76% of the animals were completely protected (sterile) against a challenge inoculum of 10(3) infective organisms. The protectively immunized animals demonstrated T- and B-cell-dependent immunological responses; both lymphokine responses as well as antibody responses and long-term memory are indicative of T-cell activation. This first report of the use of a recombinant vaccinia virus to induce protection against a Leishmania infection indicates that recombinant vaccinia viruses should be of value in the design of a safe and effective vaccine against this parasitic disease.

Developmental life cycle of Leishmania--cultivation and characterization of cultured extracellular amastigotes

The biochemistry and immunology of Leishmania promastigotes has been extensively studied; this is due primarily to the facility with which this stage, in contrast to the amastigotes stage, can be maintained in axenic culture. Several attempts to axenically culture lines of Leishmania amastigotes have been reported in the literature. This paper summarizes methods of adaptation (low pH, elevated temperature and culture medium) and characterization of several axenic lines of Leishmania amastigotes. Based on morphological, biological, immunological and biochemical evidence, these organisms appear to resemble amastigotes from infected macrophages or tissue. The axenically cultured amastigotes appear to be distinct from shocked (heat, serum deprivation, stressed) Leishmania promastigotes in the plethora of proteins synthesized, growth (multiplication) in culture, and developmental regulation observed. These data suggest that Leishmania organisms have a significant developmental response to certain signals (pH, temperature) mimicking their in vivo macrophage milieu. The response to other environmental parameters characteristic of the host-macrophage remain to be determined. These axenically cultured amastigotes should be of interest for further immunological, biochemical and developmental investigations of the disease-maintaining stage of this parasite.

Identification of two distinct cysteine proteinase genes of Leishmania pifanoi axenic amastigotes using the polymerase chain reaction

A developmentally regulated cysteine proteinase associated with an unique lysosomal organelle, the megasome, has been described for the intracellular amastigotes of the Leishmania mexicana complex; this proteinase appears to be important in the survival of the parasite. Degenerate primers encoding the active sites residues have been used to amplify cysteine proteinase cDNA sequences from axenically cultured amastigotes of Leishmania pifanoi, a member of the L. mexicana complex. Based on sequence data, two distinct genes (Lpcys1 and Lpcys2) were identified. Although both genes are preferentially transcribed in the amastigote stage, each is distinct in genomic arrangement and chromosome location, with Lpcys2 showing evidence for the presence of 8-20 tandemly arrayed copies and mRNA levels 10-fold higher than Lpcys1. Related forms of the Lpcys1 and Lpcys2 genes exist in other species of the genus Leishmania, including Leishmania braziliensis, Leishmania major and Leishmania donovani. The protein sequence of an abundant immunoaffinity purified amastigote cysteine proteinase (A-2) is identical to that predicted for the product of Lpcys2; immunofluorescence studies show an intracellular pattern/distribution for the A-2 proteinase consistent with a putative megasomal association. The DNA sequence of a genomic copy of Lpcys2 predicts a C-terminal extension for the proteinase; comparative sequence analyses of the C-terminal extensions found for Trypanosoma cruzi and Trypanosoma brucei reveal the selective conservation of cysteine, as well as proline and glycine residues, suggesting that conservation of folding and secondary structure may be required for biological function.

Cutaneous leishmaniasis: review of 59 cases seen at the National Institutes of Health

Fifty-nine cases of cutaneous leishmaniasis seen at the National Institutes of Health in Bethesda, Maryland, are reviewed. The group of patients involved was unique in that the majority were American civilians, their disease was acquired in many different endemic areas of the world, and their illnesses represented all points on the clinical spectrum of cutaneous disease. The majority of American patients acquired leishmaniasis while engaging in activities related to their occupations. Cutaneous disease acquired in the New World usually consisted of one or two lesions, while multiple lesions often characterized Old World infections with Leishmania major. Patients with chronic relapsing or diffuse cutaneous leishmaniasis were native to endemic areas and were infected at an early age. Even the localized form of cutaneous leishmaniasis was often extensive and difficult to treat. Diagnosis with culture and identification of the parasite to the subspecies level is instrumental in the selection of optimal therapy. Cutaneous leishmaniasis may be encountered increasingly often in the United States because of the frequent international travel of U.S. residents and the influx of immigrants from endemic areas of the world.

Cutaneous leishmaniasis in western Venezuela caused by infection with Leishmania venezuelensis and L. braziliensis variants

Between 1975 and 1987, epidemiological studies were carried out in several rural and urban communities in the central part of western Venezuela, especially in the state of Lara. 115 positive cultures were obtained from human cases and identified by their reactivity patterns to a cross-panel of specific monoclonal antibodies using a radioimmune binding assay; 53 were Leishmania venezuelensis and 62 were L. braziliensis. Most of these stocks were also characterized by isoenzyme electrophoresis, which confirmed the identification of the L. venezuelensis isolates. The enzyme electrophoretic profiles of the L. braziliensis isolates, however, revealed two populations with distinct electromorphs, one related to the World Health Organization L. braziliensis reference strain while the other population appeared to be a hybrid between L. braziliensis and L. guyanensis. L. braziliensis variants showed the widest geographical distribution, and were found in 7 states: Districto Federal (Caracas); Lara (Barquisimeto, Crespo, Iribarren, Jimenez, Morán, Palavecino, Torres, Urdaneta); Nueva Esparta (Margarita); Portuguesa (Las Cruces, Rio Amarillo); Trujillo (Cuicas); Yaracuy (Agua Fria, Cambural, Guaremal); and Zulia (Zipa-Yare). L. venezuelensis was found in the following endemic regions: Lara (Barquisimeto, Iribarren, Jimenez, Morán); Merida (Zéa); and Yaracuy (Campos Elias), showing that this parasite has a much wider geographical distribution than was initially recognized and that both these species can occur simultaneously within the same endemic region. Five isolates of L. braziliensis were made from infected donkeys (Equus asinus) in Urdaneta, Lara State, suggesting a possible domestic reservoir of L. braziliensis.

Loss of the GP46/M-2 surface membrane glycoprotein gene family in the Leishmania braziliensis complex

Immunization with the GP46/M-2 membrane glycoprotein of Leishmania amazonensis has been shown to induce a protective immune response against infection. We have surveyed a variety of trypanosomatid species and genera for the presence and expression of this gene family, information that will be relevant to future vaccine studies against leishmaniasis. Molecular karyotype analysis revealed the presence of GP46/M-2 genes in all members of the Leishmania mexicana complex, Leishmania major, Leishmania donovani, Leishmania tarentolae, and Crithidia fasciculata. In contrast, DNAs from species of the Leishmania braziliensis complex (L. braziliensis, Leishmania guyanensis, and Leishmania panamensis) failed to hybridize to GP46/M-2 probes. Western blot analyses with several polyclonal antisera against the GP46/M-2 protein revealed protein expression in L. major and L. donovani, but not L. panamensis or L. braziliensis. Phylogenetic analysis suggests that a loss of the GP46A gene family occurred following separation of the L. braziliensis complex, prior to speciation events within this complex. These data indicate that GP46/M-2 membrane glycoprotein may not be critical to parasite survival, but may play an ancillary role during the developmental cycle.

Biochemical and molecular characterization of Leishmania pifanoi amastigotes in continuous axenic culture

Inability to culture the disease-producing amastigote form of Leishmania has greatly hampered its study. We have biochemically characterized an axenically cultured amastigote-like form of Leishmania pifanoi. This form closely resembles amastigotes in proteinase, ribonuclease, adenine deaminase and peroxidase activity. It also exhibits comparable rates of growth, transformation, synthesis of DNA, RNA and protein, and metabolism of glucose and linoleic acid. It is distinct from promastigotes in these characteristics. The expression of the genes for beta-tubulin and the P100/11E reductase is developmentally regulated in this axenic form as in amastigotes. These results, combined with previous demonstrations of amastigote morphology and antigenicity in the culture form, confirm that Leishmania amastigotes have been successfully propagated in axenic media. This strain should serve as an excellent model for the study of amastigote biochemistry, pharmacology and immunology, and the molecular genetics of the transformation between amastigote and promastigote forms.

Biochemical characterization of the protective membrane glycoprotein GP46/M-2 of Leishmania amazonensis

Biochemical features of the immunologically protective, membrane glycoprotein GP46/M-2 of Leishmania amazonensis have been investigated. The protein appears to have a single carbohydrate side chain of approximately 3 kDa, representing 7% of the mass of the mature GP46/M-2 protein. Experiments removing this carbohydrate side chain from GP46/M-2 indicate that the carbohydrate is not involved in the epitope recognized by the monoclonal antibody, M-2. As this monoclonal antibody recognizes a species-specific epitope, these data suggest that this determinant is defined by the polypeptide portion of the molecule. Studies employing the VSG-lipase as well as anti-CRD antibody clearly indicate that the molecule is anchored to the surface membrane of the promastigote via a phosphatidylinositol-linked lipid anchor. Neither the carbohydrate side chain nor the lipid anchor appear to be responsible for the apparent refractoriness of this protein to protease digestion, suggesting that properties of the polypeptide itself may be responsible. These data are discussed in terms of recent DNA-derived protein sequence of the GP46/M-2.

Characterization of Leishmania colombiensis sp. n (Kinetoplastida: Trypanosomatidae), a new parasite infecting humans, animals, and phlebotomine sand flies in Colombia and Panama

Characterization of Leishmania colombiensis sp.n. is presented, which on the basis of biological and molecular criteria, appears to be a new member of the L. braziliensis complex. A total of nine isolates of the new parasite were made in Colombia and Panama between 1980 and 1986: two from human cases of cutaneous leishmaniasis, six from phlebotomine sand flies, and one from a sloth. Although most closely related to L. lainsoni, L. colombiensis sp.n. is clearly distinguishable from other members of the genus by its reactivity with monoclonal antibodies, isoenzyme electrophoresis, and restriction endonuclease fragment patterns of kinetoplast DNA (k-DNA).

Characterization and classification of leishmanial parasites from humans, wild mammals, and sand flies in the Amazon region of Brazil

Ninety-four leishmanial isolates from the Brazilian Amazon Region (Amapá, Amazonas, Pará, and Rondônia) were identified and classified using specific monoclonal antibodies and an indirect radioimmunoassay (serodeme analysis); eighty-two were also characterized by enzyme electrophoresis (zymodeme analysis), the results of which were subjected to a numerical phenetic analysis. Six isolates from humans (3), Didelphis marsupialis (1), Lutzomyia olmeca nociva (1), and Lu, reducta (1) showed reactivity patterns and isoenzyme profiles similar to those obtained with the Leishmania amazonensis reference strains, and were identified as this species. Eighty-six stocks were classified as members of the L. braziliensis complex; of these, 61 were L. guyanensis or variants, which presented three serodeme subtypes, but whose isoenzyme profiles were all similar to the reference strain. A total of 15 isolates were distinguished as L. braziliensis or variants and were classified into five serodeme subtypes. The isolate from Psychodopugus davisi appeared, from the numerical analysis, to be a distinct parasite species. Ten isolates showed reactivity patterns and isoenzyme profiles similar to those obtained with the L. naiffi reference strain. A parasite isolated from Ps. claustrei appeared to be different from all reference strains by both techniques, and was classified as probably being a new species. The importance of these results with respect to the taxonomic status of the New World Leishmania, and their implications for both clinical and epidemiologic data are discussed.

Leishmaniasis in Bahia, Brazil: evidence that Leishmania amazonensis produces a wide spectrum of clinical disease

One hundred fourteen Leishmania isolates from patients with different clinical forms of leishmaniasis in the State of Bahia, Brazil, were characterized by indirect radioimmune binding assay using specific monoclonal antibodies (serodeme analysis). Seventy-five of these isolates were also analyzed by enzyme electrophoresis, based on 11 enzyme loci; parasite species were compared, according to their characteristic zymodemes, to those of WHO Leishmania reference strains. All isolates could be classified into one of three species: Leishmania amazonensis (n = 40), L. braziliensis (n = 39) or L. chagasi (n = 35). The most interesting information obtained from this study is the realization that L. amazonensis is capable of producing a wide spectrum of disease in humans. Infection with this parasite was associated with many different clinical presentations, including cutaneous leishmaniasis [CL] (20/49 cases), mucocutaneous leishmaniasis [MCL] (5/13 cases) and, of special note, visceral leishmaniasis [VL] (11/46 cases), as well as four cases of post kalaazar dermal leishmaniasis [PKDL]. In situ tissue parasite characterization, by immunoperoxidase assay and employing anti-L. amazonensis amastigote monoclonal antibodies, confirmed the infection with this species in two cases of CL, one case of DCL, one case of MCL and one case of PKDL. Our results also demonstrate the difficulty of parasite differentiation based on clinical grounds, since at least L. amazonensis infection can be associated with all types of leishmanial diseases, and different Leishmania species may be associated with indistinguishable clinical presentations. Since leishmanial parasites may vary in their biological behavior or in their response to treatment, it is important that their identification be made by reliable methods.

Leishmania donovani chagasi: new clinical variant of cutaneous leishmaniasis in Honduras

During surveillance for endemic visceral leishmaniasis on an island off the Pacific coast of Honduras, an unusual form of cutaneous leishmaniasis was encountered. By clinical and laboratory criteria, 17 cases were identified over 5 months; children aged 4 to 15 years were primarily affected. Lesions were generally few in number, small, always papular, and non-ulcerative, even when present for several years. Patients with skin lesions seemed otherwise healthy and were well nourished. Montenegro skin tests with Leishmania mexicana and L major antigens were positive in 10 of 17 patients tested, and lesions from 9 patients were positive by culture. Since the summer of 1988, cases of atypical cutaneous leishmaniasis continue to occur on the island (8) as well as on the mainland of southern Honduras (23). A total of 9 parasite isolates from skin lesions, 4 from bone marrow of patients with kala-azar, and 2 from sandflies were identified as L donovani chagasi and were indistinguishable from one another by isoenzyme analysis.

Development of a stable Leishmania expression vector and application to the study of parasite surface antigen genes

Trypanosomatid protozoan parasites cause several important tropical diseases and have been a fertile ground for the discovery of molecular paradigms such as trans-splicing and RNA editing. Transfection-based methods for the study of these organisms have recently been developed, and we have now designed an expression vector, pX, which contains only 2.3 kilobases of Leishmania DNA and can be stably transfected with high efficiency. Genes encoding Escherichia coli beta-galactosidase or a Leishmania amazonensis protective membrane glycoprotein (GP46A/M-2) were inserted into the pX expression site and transfected into Leishmania major, where they directed the synthesis of high levels of mRNAs formed by 5' and 3' processing events occurring predominantly at the sites used by the normal transcripts. Colony assays and immunoblot analysis showed that both proteins were produced; enzymatically active beta-galactosidase comprised approximately 1% of total protein. Sizes of the GP46A protein synthesized in transfected L. major or L. amazonensis were similar and differed from the predominant L. amazonensis GP46, suggesting that the GP46A gene may encode a variant GP46 family member. Because these vectors function efficiently in pathogenic species of Leishmania, pX will facilitate the genetic analyses of parasite proteins crucial for infectivity as well as the identification of cis-acting elements mediating transcription and replication.

Molecular cloning and characterization of the immunologically protective surface glycoprotein GP46/M-2 of Leishmania amazonensis

Immunization of mice with the GP46/M-2 membrane glycoprotein has been demonstrated to elicit protection against infection with the parasitic protozoan Leishmania amazonensis. As this molecule is important for future vaccine studies of leishmaniasis, the gene encoding the GP46/M-2 surface membrane glycoprotein of Leishmania amazonensis has been cloned and sequenced. The protein sequence derived from the DNA sequence data is consistent with the known biochemical and immunochemical properties of the protein and indicates a number of structural areas of interest. A repetitive sequence (24 amino acids repeated four times) occurs within the amino-terminal portion of the molecule and constitutes approximately 22% of the total mature protein. The protease-resistant immunodominant carboxyl-terminal domain of the protein comprises approximately half of the molecule and consists of proline-rich and cysteine-rich areas of sequence; the distribution of cysteine residues is suggestive of metal binding motifs. The sequence predicts a hydrophobic leader peptide, and a putative attachment site for a glycosyl-phosphatidylinositol anchor is indicated at the carboxyl terminus, consistent with the membrane location of the protein. Southern blot analyses also indicate the presence of a GP46/M-2 gene family.

Evolution of nuclear DNA and the occurrence of sequences related to new small chromosomal DNAs in the trypanosomatid genus Endotrypanum

Comparisons of nuclear DNA restriction fragment patterns were used to examine the evolutionary relatedness among 17 strains previously identified as Endotrypanum, a trypanosomatid parasite of sloths. Fragments were obtained with 6 restriction enzymes and analyzed by Southern blotting with hybridization probes from three loci. An estimate of the percent nucleotide sequence divergence among strains, delta, was calculated and used to construct molecular evolutionary trees. The 17 isolates fell into four distinct groups, one of which (group D) showed no more relationship to groups A-C than it did to other genera (Leishmania, Crithidia, Leptomonas, Trypanosoma), being too distant to be resolved with this method. These and other data suggest that group D may not actually be Endotrypanum. Molecular karyotype analysis revealed considerable variation among the chromosomes of these strains. One strain (LV88, group B) contained a linear 70-kb chromosome not evident in other isolates. Hybridization probes specific for this chromosome (LV88-70) were developed and revealed that related sequences were present at high levels in group B isolates and low levels in group A isolates, although a complex hybridization pattern was evident. Sequences related to LV88-70 were not present in groups C and D, nor in Leishmania major, showing that this DNA has a disjunct distribution which curiously parallels that of virus-like particles present in these isolates.

Production of a specific monoclonal antibody for the identification of Leishmania (Leishmania) venezuelensis

We describe a monoclonal antibody (Mab), V1, specific for Leishmania (Leishmania) venezuelensis. Previous Mabs and DNA probes were not specific for this parasite, and so it was not directly possible to distinguish L. (L.) venezuelensis from other Leishmania species. Immunofluorescent staining using Mabs may be performed on very few parasites, whereas other methods of identification usually require far greater numbers of organisms. L. (L.) venezuelensis frequently dies on subculture. Mab V1 can be used to identify this parasite by indirect immunofluorescence and radioimmunoassay.

A review of the geographic distribution and epidemiology of leishmaniasis in the New World

A review of the epidemiologic aspects of the New World leishmaniases, including their known geographic distribution, etiologic agents, zoonotic reservoirs, and insect vectors, based on biological and molecular characterization of Leishmania isolates is presented. Data summarized in this paper on parasite taxonomy and geographic distribution come from our studies of greater than 1,000 New World Leishmania isolates identified by species-specific monoclonal antibodies using an indirect radioimmune binding assay and from scientific literature.

Flagellar membrane and paraxial rod proteins of Leishmania: characterization employing monoclonal antibodies

Flagella-specific proteins of Leishmania have been identified employing the monoclonal antibody technique. Six monoclonal antibodies recognized 3 different proteins. A doublet of protein of Mr 69,000 and 74,000 Da identified by monoclonal antibodies F-3, F-4 and F-6 is continuously distributed along the flagellum by immunofluorescence. Immunocytochemical electron microscopic studies localize these molecules to the paraxial rod of the flagellum. A single protein of Mr 13,200 Da is recognized by monoclonal antibodies F-1, F-2 and F-5. The distribution of the Mr 13,200 protein appears irregular, occurring in localized patches along the length of the flagellum, especially at the flagellar tip. Immunocytochemical electron microscopic experiments show that the Mr 13,200 molecule is associated with the membrane of the flagellum. Indirect immunofluorescence experiments demonstrated these monoclonal antibodies cross-reacted with members of the Kinetoplastida family (Endotrypanum, trypanosoma, Leishmania) suggesting that these molecules may be evolutionarily conserved.

Studies on the attachment of Leishmania flagella to sand fly midgut epithelium

An in vitro assay was developed to study the recognition mechanism for attachment of Leishmania flagella to sand fly midgut epithelium. Frozen sections of sand fly guts were incubated with flagella preparations, and probed with a flagella-specific monoclonal antibody. Tissue-specific adhesion of flagella to midgut epithelium was demonstrated by indirect immunofluorescence. None of the 13 sugars, screened to test for possible lectin-mediation, appeared to significantly inhibit the adhesion of flagella to gut sections. Similarly no inhibition was achieved by incubating flagella with pep 63 which inhibits the promastigote-macrophage recognition mechanism. Significant inhibition was attained by incubating flagella preparations with a monoclonal antibody which binds to a flagellar membrane-component. The possible relevance of the described mechanism for the biology of Leishmania in their sand fly hosts, is discussed.

Extracellular amastigote-like forms of Leishmania panamensis and L. braziliensis. II. Stage- and species-specific monoclonal antibodies

Immunochemical evidence, employing monoclonal antibodies, shows that the forms of L. braziliensis complex axenically grown at elevated temperature are amastigote-like. The monoclonal antibodies were raised against membrane proteins of amastigote-like forms, strains of both L. panamensis (WR442) and L. braziliensis (M5052), which were grown axenically. The specificities of these antibodies were examined by indirect radioimmune binding assay, indirect immunofluorescent assay and Western blot analyses. Two distinct groups of monoclonal antibodies were obtained and their specificities were consistent with the 3 methods used. Four antibodies are specific for the species L. panamensis and react with both developmental stages. Six antibodies specifically recognize amastigote-like forms grown at elevated temperature and intracellular amastigotes of both L. panamensis (WR442) and L. braziliensis (M5052). These monoclonal antibodies do not bind to promastigotes of these species, nor to promastigotes of any other species of Leishmania. Therefore these antibodies are specific for amastigotes of L. panamensis (WR442) and L. braziliensis (M5052), and suggest that immunochemically both amastigote forms (culture and macrophage) are developmentally very close, if not identical. The molecules associated with the amastigote-specific antigenic determinants consist of a Mr 12-kD component and a heterogeneous component (Mr from 50 kD to greater than 200 kD); these molecules appear to be identical for both amastigote-like forms and amastigotes isolated from macrophages.

Extracellular cultivation and morphological characterization of amastigote-like forms of Leishmania panamensis and L. braziliensis

Two strains of the Leishmania braziliensis complex have been adapted to grow extracellularly at elevated temperature as amastigote-like forms in a cell-free medium. These parasites can be serially cultivated and maintained at 32 degrees C for L. panamensis (WR442; L. braziliensis panamensis) and at 28 degrees C for L. braziliensis (M5052; L. braziliensis braziliensis). Several observations are presented that the forms adapted at elevated temperature are amastigote-like. Morphologically, the amastigote-like organisms appear rounded to ovoid and are immotile and smaller than promastigotes; the flagellum of the amastigote-like forms does not extend beyond the flagellar pocket. In comparison, the promastigotes are very elongated, with a nucleus at mid-cell length and a very long flagellum. By electron microscopy, the short flagellum of the amastigote-like form is within a distended flagellar pocket; the 9 + 2 axonemal configuration is present but the paraxial rod is not observed. By contrast, the flagellum of the promastigote has a paraxial rod which extends from the axosome level. In addition, these amastigote-like forms of Leishmania are able to infect, to survive and to divide within the macrophage cell line J774.

Amastigote and epimastigote stage-specific components of Trypanosoma cruzi characterized by using monoclonal antibodies. Purification and molecular characterization of an 83-kilodalton amastigote protein

Stage-specific mAb have been produced to amastigotes and epimastigotes of Trypanosoma cruzi (Brazil strain). mAb C-1 through C-6 reacted specifically with T. cruzi strains; no cross-reactions were found with membranes of promastigotes or amastigotes of Leishmania species. One mAb produced against the epimastigote membranes (C-5) was found to be specific against this stage by radioimmune binding assay, immunofluorescence, and radioimmunoprecipitation. mAb C-5 recognized a novel epimastigote protein at Mr (greater than 200,000) on immunoprecipitation with radiolabeled epimastigotes. Three amastigote stage-specific monoclonal antibodies were produced against membrane-enriched preparations of T. cruzi (Brazil strain) amastigotes grown in axenic culture (C-1 through C-3). By indirect immunofluorescence assay, monoclonal antibody C-2 bound only to T. cruzi amastigotes; no reaction with either tissue culture-derived trypomastigotes or epimastigotes was observed. mAb C-1 and C-2 each specifically immunoprecipitated a single protein molecule with Mr 83,000 from [35S]-methionine-labeled amastigotes. mAb C-2 was also used to affinity purify an 83-kDa Ag that was recognized by human Chagasic sera from patients of endemic countries of Latin America in an enzyme immunoassay. Amino acid composition and preliminary sequence data of the 83-kDa protein are presented. These mAb and/or purified Ag may be useful in studying stage differentiation, monitoring transformation, and for further taxonomic, epidemiologic, and immunologic studies of Chagas' disease.

Amastigote and epimastigote stage-specific components of Trypanosoma cruzi characterized by using monoclonal antibodies. Purification and molecular characterization of an 83-kilodalton amastigote protein

Stage-specific mAb have been produced to amastigotes and epimastigotes of Trypanosoma cruzi (Brazil strain). mAb C-1 through C-6 reacted specifically with T. cruzi strains; no cross-reactions were found with membranes of promastigotes or amastigotes of Leishmania species. One mAb produced against the epimastigote membranes (C-5) was found to be specific against this stage by radioimmune binding assay, immunofluorescence, and radioimmunoprecipitation. mAb C-5 recognized a novel epimastigote protein at Mr (greater than 200,000) on immunoprecipitation with radiolabeled epimastigotes. Three amastigote stage-specific monoclonal antibodies were produced against membrane-enriched preparations of T. cruzi (Brazil strain) amastigotes grown in axenic culture (C-1 through C-3). By indirect immunofluorescence assay, monoclonal antibody C-2 bound only to T. cruzi amastigotes; no reaction with either tissue culture-derived trypomastigotes or epimastigotes was observed. mAb C-1 and C-2 each specifically immunoprecipitated a single protein molecule with Mr 83,000 from [35S]-methionine-labeled amastigotes. mAb C-2 was also used to affinity purify an 83-kDa Ag that was recognized by human Chagasic sera from patients of endemic countries of Latin America in an enzyme immunoassay. Amino acid composition and preliminary sequence data of the 83-kDa protein are presented. These mAb and/or purified Ag may be useful in studying stage differentiation, monitoring transformation, and for further taxonomic, epidemiologic, and immunologic studies of Chagas' disease.