Characterization of intestinal mononuclear phagocyte subsets in young ruminants at homeostasis and during Cryptosporidium parvum infection.

Introduction: Cryptosporidiosis is a poorly controlled zoonosis caused by an intestinal parasite, Cryptosporidium parvum, with a high prevalence in livestock (cattle, sheep, and goats). Young animals are particularly susceptible to this infection due to the immaturity of their intestinal immune system. In a neonatal mouse model, we previously demonstrated the importance of the innate immunity and particularly of type 1 conventional dendritic cells (cDC1) among mononuclear phagocytes (MPs) in controlling the acute phase of C. parvum infection. These immune populations are well described in mice and humans, but their fine characterization in the intestine of young ruminants remained to be further explored. Methods: Immune cells of the small intestinal Peyer's patches and of the distal jejunum were isolated from naive lambs and calves at different ages. This was followed by their fine characterization by flow cytometry and transcriptomic analyses (q-RT-PCR and single cell RNAseq (lamb cells)). Newborn animals were infected with C. parvum, clinical signs and parasite burden were quantified, and isolated MP cells were characterized by flow cytometry in comparison with age matched control animals. Results: Here, we identified one population of macrophages and three subsets of cDC (cDC1, cDC2, and a minor cDC subset with migratory properties) in the intestine of lamb and calf by phenotypic and targeted gene expression analyses. Unsupervised single-cell transcriptomic analysis confirmed the identification of these four intestinal MP subpopulations in lamb, while highlighting a deeper diversity of cell subsets among monocytic and dendritic cells. We demonstrated a weak proportion of cDC1 in the intestine of highly susceptible newborn lambs together with an increase of these cells within the first days of life and in response to the infection. Discussion: Considering cDC1 importance for efficient parasite control in the mouse model, one may speculate that the cDC1/cDC2 ratio plays also a key role for the efficient control of C. parvum in young ruminants. In this study, we established the first fine characterization of intestinal MP subsets in young lambs and calves providing new insights for comparative immunology of the intestinal MP system across species and for future investigations on host-Cryptosporidium interactions in target species.

The unicellular eukaryotic parasite Toxoplasma gondii hijacks the migration machinery of mononuclear phagocytes to promote its dissemination.

Toxoplasma gondii is an obligate intracellular protozoan with the ability to infect virtually any type of nucleated cell in warm-blooded vertebrates including humans. Toxoplasma gondii invades immune cells, which the parasite employs as shuttles for dissemination by a Trojan horse mechanism. Recent findings are starting to unveil how this parasite orchestrates the subversion of the migratory functions of parasitised mononuclear phagocytes, especially dendritic cells (DCs) and monocytes. Here, we focus on how T. gondii impacts host cell signalling that regulates leukocyte motility and systemic migration in tissues. Shortly after active parasite invasion, DCs undergo mesenchymal-to-amoeboid transition and adopt a high-speed amoeboid mode of motility. To trigger migratory activation - termed hypermigratory phenotype - T. gondii induces GABAergic signalling, which results in calcium fluxes mediated by voltage-gated calcium channels in parasitised DCs and brain microglia. Additionally, a TIMP-1-CD63-ITGB1-FAK signalling axis and signalling via the receptor tyrosine kinase MET promotes sustained hypermigration of parasitised DCs. Recent reports show that the activated signalling pathways converge on the small GTPase Ras to activate the MAPK Erk signalling cascade, a central regulator of cell motility. To date, three T. gondii-derived putative effector molecules have been linked to hypermigration: Tg14-3-3, TgWIP and ROP17. Here, we discuss their impact on the hypermigratory phenotype of phagocytes. Altogether, the emerging concept suggests that T. gondii induces metastasis-like migratory properties in parasitised mononuclear phagocytes to promote infection-related dissemination.

Chemical depletion of phagocytic immune cells in Anopheles gambiae reveals dual roles of mosquito hemocytes in anti-Plasmodium immunity.

Mosquito immunity is composed of both cellular and humoral factors that provide protection from invading pathogens. Immune cells known as hemocytes, have been intricately associated with phagocytosis and innate immune signaling. However, the lack of genetic tools has limited hemocyte study despite their importance in mosquito anti-Plasmodium immunity. To address these limitations, we employ the use of a chemical-based treatment to deplete phagocytic immune cells in Anopheles gambiae, demonstrating the role of phagocytes in complement recognition and prophenoloxidase production that limit the ookinete and oocyst stages of malaria parasite development, respectively. Through these experiments, we also define specific subtypes of phagocytic immune cells in An. gambiae, providing insights beyond the morphological characteristics that traditionally define mosquito hemocyte populations. Together, this study represents a significant advancement in our understanding of the roles of mosquito phagocytes in mosquito vector competence and demonstrates the utility of clodronate liposomes as an important tool in the study of invertebrate immunity.

Collective nitric oxide production provides tissue-wide immunity during Leishmania infection.

Nitric oxide (NO) production is critical for the host defense against intracellular pathogens; however, it is unclear whether NO-dependent control of intracellular organisms depends on cell-intrinsic or cell-extrinsic activity of NO. For example, NO production by infected phagocytes may enable these cells to individually control their pathogen burden. Alternatively, the ability of NO to diffuse across cell membranes might be critical for infection control. Here, using a murine ear infection model, we found that, during infection with the intracellular parasite Leishmania major, expression of inducible NO synthase does not confer a cell-intrinsic ability to lower parasite content. We demonstrated that the diffusion of NO promotes equally effective parasite killing in NO-producing and bystander cells. Importantly, the collective production of NO by numerous phagocytes was necessary to reach an effective antimicrobial activity. We propose that, in contrast to a cell-autonomous mode of pathogen control, this cooperative mechanism generates an antimicrobial milieu that provides the basis for pathogen containment at the tissue level.

Schistosoma mansoni hemozoin modulates alternative activation of macrophages via specific suppression of Retnla expression and secretion.

The trematode Schistosoma mansoni is one of the etiological agents of schistosomiasis, a key neglected tropical disease responsible for an estimated annual loss of 70 million disability-adjusted life years. Hematophagy represents the primary nutrient acquisition pathway of this parasite, but digestion of hemoglobin also liberates toxic heme. Schistosomes detoxify heme via crystallization into hemozoin, which is subsequently regurgitated into the host's circulation. Here we demonstrate that during experimental schistosomiasis, hemozoin accumulating in the mouse liver is taken up by phagocytes at a time coincident with the development of the egg-induced T-helper 2 (Th2) granulomatous immune response. Furthermore, the uptake of hemozoin also coincides with the hepatic expression of markers of alternative macrophage activation. Alternatively activated macrophages are a key effector cell population associated with protection against schistosomiasis, making hemozoin well placed to play an important immunomodulatory role in this disease. To systematically explore this hypothesis, S. mansoni hemozoin was purified and added to in vitro bone marrow-derived macrophage cultures concurrently exposed to cytokines chosen to reflect the shifting state of macrophage activation in vivo. Macrophages undergoing interleukin-4 (IL-4)-induced alternative activation in the presence of hemozoin developed a phenotype specifically lacking in Retnla, a characteristic alternatively activated macrophage product associated with regulation of Th2 inflammatory responses. As such, in addition to its important detoxification role during hematophagy, we propose that schistosome hemozoin also provides a potent immunomodulatory function in the coevolved network of host-parasite relationships during schistosomiasis.

Paranucleospora theridion n. gen., n. sp. (Microsporidia, Enterocytozoonidae) with a Life Cycle in the Salmon Louse (Lepeophtheirus salmonis, Copepoda) and Atlantic Salmon (Salmo salar).

Paranucleospora theridion n. gen, n. sp., infecting both Atlantic salmon (Salmo salar) and its copepod parasite Lepeophtheirus salmonis is described. The microsporidian exhibits nuclei in diplokaryotic arrangement during all known life-cycle stages in salmon, but only in the merogonal stages and early sporogonal stage in salmon lice. All developmental stages of P. theridion are in direct contact with the host cell cytoplasm or nucleoplasm. In salmon, two developmental cycles were observed, producing spores in the cytoplasm of phagocytes or epidermal cells (Cycle-I) and in the nuclei of epidermal cells (Cycle-II), respectively. Cycle-I spores are small and thin walled with a short polar tube, and are believed to be autoinfective. The larger oval intranuclear Cycle-II spores have a thick endospore and a longer polar tube, and are probably responsible for transmission from salmon to L. salmonis. Parasite development in the salmon louse occurs in several different cell types that may be extremely hypertrophied due to P. theridion proliferation. Diplokaryotic merogony precedes monokaryotic sporogony. The rounded spores produced are comparable to the intranuclear spores in the salmon in most aspects, and likely transmit the infection to salmon. Phylogenetic analysis of P. theridion partial rDNA sequences place the parasite in a position between Nucleospora salmonis and Enterocytozoon bieneusi. Based on characteristics of the morphology, unique development involving a vertebrate fish as well as a crustacean ectoparasite host, and the results of the phylogenetic analyses it is suggested that P. theridion should be given status as a new species in a new genus.

Automated analysis of cryptococcal macrophage parasitism using GFP-tagged cryptococci.

The human fungal pathogens Cryptococcus neoformans and C. gattii cause life-threatening infections of the central nervous system. One of the major characteristics of cryptococcal disease is the ability of the pathogen to parasitise upon phagocytic immune effector cells, a phenomenon that correlates strongly with virulence in rodent models of infection. Despite the importance of phagocyte/Cryptococcus interactions to disease progression, current methods for assaying virulence in the macrophage system are both time consuming and low throughput. Here, we introduce the first stable and fully characterised GFP-expressing derivatives of two widely used cryptococcal strains: C. neoformans serotype A type strain H99 and C. gattii serotype B type strain R265. Both strains show unaltered responses to environmental and host stress conditions and no deficiency in virulence in the macrophage model system. In addition, we report the development of a method to effectively and rapidly investigate macrophage parasitism by flow cytometry, a technique that preserves the accuracy of current approaches but offers a four-fold improvement in speed.

Receptor-mediated and lectin-like activities of carp (Cyprinus carpio) TNF-alpha.

Functional characterization of TNF-alpha in species other than mammalian vertebrates is limited, and TNF-alpha has been studied in a limited number of fish species, primarily in vitro using recombinant proteins. Studies on TNF-alpha from different fish species so far pointed to several inconsistencies, in particular with respect to some receptor-mediated activities of fish TNF-alpha, such as the ability to directly activate phagocytes. In the present study a comprehensive analysis of in vitro as well as in vivo biological activities of two isoforms of carp TNF-alpha was performed. Our results show that carp TNF-alpha directly primes carp phagocytes and indirectly promotes typical receptor-mediated activities such as phagocyte activation by acting via endothelial cells. Additionally, for the first time in nonmammalian vertebrate species, the lectin-like activity of fish TNF-alpha homologs was investigated. Our results show an evolutionary conservation of function of this receptor-independent activity of TNF-alpha not only in cyprinid fish, but also in perciform and salmonid fish. The role of TNF-alpha in vivo, during infections of carp with the blood parasite Trypanoplasma borreli, was examined using three fundamentally different but complementary approaches: (1) inhibition of TNF-alpha expression, (2) overexpression of TNF-alpha, and (3) inhibition of shedding of membrane-bound TNF-alpha. Our results show that, also in fish, a tight regulation of TNF-alpha expression is important, since depletion or excess of TNF-alpha can make an important difference to survival of infection. Finally, we demonstrate a crucial protective role for membrane-bound TNF-alpha, which has a yet unexploited function in fish.

Análise da expressão do Fator de Crescimento Semelhante à Insulina-I (IGF-I) e seu efeito na produção de óxido nítrico em macrófagos estimulados com micobactérias / Expression Analysis of Growth Factor Insulin-like-I (IGF-I) and its effect on nitric oxide production in macrophages stimulated with mycobacterial

Fagócitos mononucleares são células alvo para micobactérias patogênicas como M. tuberculosis e M. leprae. Essas micobactérias têm a capacidade de modular os mecanismos microbicidas dos macrófagos, sobreviver e replicar nessas células. Contudo o mecanismo molecular envolvido nesta desativação não é totalmente compreendido. Dados do nosso laboratório têm demonstrado que o M. leprae é capaz de induzir a expressão do fator de crescimento semelhante a insulina I um hormônio com efeito anti-apoptotico e com atividade de proliferação – em Células de Schwann humanas. Recentemente, foi relatado que IGF-I é capaz de inibir a expressão da enzima óxido nítrico sintase induzível (iNOS) e consequentemente a produção de óxido nítrico em macrófagos induzido por Leishimania amazonensis. Baseado nestes dados, nós temos investigado o envolvimento do IGF-I na desativação dos macrófagos observada na infecção micobacteriana. Com este propósito, macrófagos murinos da linhagem RAW 264.7 foram estimulados ou não com M. leprae e a expressão de IGF-I foi monitorada através de RT-PCR quantitativo e ensaio imunoenzimático específico, ELISA. Duas outras espécies de micobactérias, M bovis BCG e M. smegmatis, respectivamente, uma cepa atenuada de M. bovis e uma micobactéria não-patogênica, foram testadas para comparação. O estímulo com M. leprae ou BCG, em contraste com M. smegmatis, regulou positivamente a expressão de RNAm para IGF-I e aumento significantemente os níveis da proteína quando comparado com a cultura controle. Além disso, nós também investigamos o efeito do IGF-I na produção de NO e na expressão de iNOS induzida por micobactérias em macrófagos RAW 264.7. A produção de NO foi monitorada pela determinação da concentração de nitrito no sobrenadante em meio de cultura, utilizando reagente de Griess e a expressão de iNOS monitorada por Western Blot. M. leprae foi um fraco estimulo para indução de iNOS. Em contraste, BCG e M. smegmatis induziram a expressão e, como consequência, uma significativa produção de NO em macrófagos RAW. Interessantemente, células pré-tratadas com IGF-I mostraram uma significativa redução na produção de nitrito após a estímulo com micobactérias, o que correlacionou com uma regulação negativa da expressão de iNOS. Além disso, IGF-I foi capaz de reduzir parcialmente a produção de NO induzida por IFN-gama recombinantes. Esses resultados sugerem que o IFG-I pode contribuir para a persistência micobacteriana no hospedeiro, modulando negativamente a resposta imune inata duração a infecção.

Neutrophils, apoptosis and phagocytic clearance: an innate sequence of cellular responses regulating intramacrophagic parasite infections.

In complex organisms, apoptosis is a constitutive cell death process that is involved in physiological regulation of cell numbers and that can also be induced in the course of inflammatory and immune responses. Neutrophils are among the first cells recruited during inflammation. Neutrophils constitutively die by apoptosis at inflamed sites, and are ingested by macrophages. Recent studies investigated how phagocytic clearance of senescent neutrophils influences the survival of intracellular protozoan parasites that have been phagocytosed by, or have invaded phagocytes. The results indicate that neutrophil clearance plays an unexpected role in regulation of intramacrophagic protozoan parasite infection.

Infection of human mononuclear phagocytes and macrophage-like THP1 cells with Leishmania donovani results in modulation of expression of a subset of chemokines and a chemokine receptor.

The expression of chemokines and chemokine receptors was studied in Leishmania donovani (LD)-infected human mononuclear phagocytes and the human monocytic cell line THP1. Our studies showed that LD infection caused the upregulation of three beta chemokines (macrophage inflammatory protein-1 alpha (MIP-1alpha), MIP-1beta and RANTES (regulated on activation normal T cell expressed and secreted)), one alpha chemokine (interleukin-8 (IL-8)) and the CC chemokine receptor 5 (CCR5) but not CCR1, as evident from reverse transcriptase-polymerase chain reaction (RT-PCR) analysis. The CCR5 upregulation in human mononuclear phagocytes and THP1 cells was also evident by confocal microscopy. The possible association of such upregulation in relation to Leishmania and human immunodeficiency virus (HIV) coinfection was discussed.

Antimony(V) complex formation with adenine nucleosides in aqueous solution.

Despite the clinical use of pentavalent antimonial drugs for over half a century, their mode of action against leishmaniasis remains poorly understood. In this paper, we investigated the ability of Sb(V) to form in aqueous solution complexes with adenine nucleosides and deoxynucleosides, using circular dichroism (CD) and (1)H and (13)C NMR spectroscopies. We report that the ribonucleosides, adenosine (A) and adenosine monophosphate (AMP), form in water complexes with Sb(V), as evidenced by the changes induced in their CD spectra. On the other hand, 2'-deoxyadenosine (dA) did not show such a change. CD titration of the ribonucleosides with Sb(V) suggests the formation of 1:2 Sb(V)-nucleoside complexes. NMR analysis indicates that Sb(V) binds to the sugar moiety at the 2' position. Furthermore, the incubation of the antimonial drug, meglumine antimonate, with adenosine at 37 degrees C led to the transfer of Sb(V) from its original ligand to the nucleoside molecule, at acidic pH (pH 5), but not at neutral pH (7.2). Our data therefore suggests that the formation of such complexes may take place in vivo within the acidic cell compartments, including the phagolysosome of macrophage in which Leishmania resides.

IL-4 and IL-10 inhibition of IFN-gamma- and TNF-alpha-dependent nitric oxide production from bovine mononuclear phagocytes exposed to Babesia bovis merozoites.

The requirement for IFN-gamma and/or TNF-alpha as co-stimulants with Babesia bovis merozoites for nitric oxide (NO) production was examined, as well as the regulatory role of IL-4 and IL-10. Purified B. bovis merozoites did not induce the production of NO in undifferentiated monocytes without addition of exogenous IFN-gamma and TNF-alpha unless the monocytes taken ex vivo were producing TNF-alpha endogenously. Under the latter condition, the NO production resulting from merozoite stimulation remained IFN-gamma-dependent. There was no evidence for endogenous synthesis of TNF-alpha in monocyte-derived macrophages (MDM), and merozoites alone were incapable of inducing TNF-alpha mRNA in MDM. However, while merozoites plus IFN-gamma induced TNF-alpha mRNA expression in MDM, NO was not produced. Both IL-4 and IL-10 inhibited expression of iNOS and production of NO in merozoite-stimulated monocytes.

Tissue damage in cattle infected with Theileria annulata accompanied by metastasis of cytokine-producing, schizont-infected mononuclear phagocytes.

The distribution of schizont-infected cells in six calves undergoing acute, lethal sporozoite-induced infections with Theileria annulata was examined, the calves being killed in the early, middle or late stages of disease. A combination of histological and immunocytochemical techniques showed that schizont-infected cells became disseminated rapidly through the lymphoid tissues from the prescapular lymph node draining the site of inoculation to distant lymph nodes (e.g., precrural, mesenteric and mediastinal) and to the spleen and thymus. The parasitized cells also spread rapidly into non-lymphoid organs, being found in the liver, kidney, lung, abomasum, adrenal glands and pituitary gland by day 7, in the brain by day 12 and in the heart by day 14 after infection. As infection progressed, the schizonts differentiated into merozoites. By the late stages of disease, the cells containing merozoites greatly out-numbered schizont-infected cells. The parasitized mononuclear cells were labelled by antibodies to bovine interferon-alpha1 and tumour necrosis factor-alpha and, during the later stages of the disease, contained erythrocytes parasitized by piroplasms. The results suggested that the parasitized mononuclear cells themselves played a role in the development of clinical disease and in tissue damage. These findings provide new evidence that tropical theileriosis can no longer be viewed as a lymphoproliferative disease resulting from the uncontrolled multiplication and metastasis of lymphoid cells infected with T. annulata schizonts, but is caused by a parasite that lives in, and is disseminated by, cytokine-secreting, proliferating mononuclear phagocytes.

Quantification of the population and phagocytary activity of hemocytes of resistant and susceptible strains of Biomphalaria glabrata and Biomphalaria tenagophila infected with Schistosoma mansoni

Entre os fatores determinantes na resistencia e suscetibilidade da Biomphalaria ao Schistosoma mansoni, os hemocitos desempenharam importante papel. Com o objetivo de estudar as interacoes S. mansoni/Biomphalaria relativas aos hemocitos o primeiro passo e certamente relacionado a padronizacao desta populacao de celulas em Biomphalaria nao infectada. Desta forma a quantificacao desta populacao de celulas na hemolinfa bem como sua capacidade fagocitaria foi determinada pela primeira vez. Alem disso, usando cepas de B. glabrata e B. tenagophila suscetiveis e resistentes, o hemocitograma e a capacidade fagocitaria dos hemocitos, apos infeccao com S. mansoni, foram tambem determinados. Cepas de B. glabrata (BA e BH respectivamente) resistentes e suscetiveis bem como cepas de B. tenagophila (TAIM e CF respectivamente) foram infectadas com 10 miracidios das cepas LE e SJ de S. mansoni, respectivamente. Estes caramujos infectados e respectivos controles nao infectados foram avaliados em relacao ao numero de hemocitos circulantes e alteracao da capacidade fagocitaria, usando Zimozan e MTT...

Estrategias del Histoplasma capsulatum para evadir los mecanismos citocidas de los fagocitos / Strategies of Histoplasma capsulatum to circumvent the cytocidal mechanisms of phagocytes

A pesar de que la proliferación de Histoplasma capsulatum dentro de los macrófagos está restringida por el desarrollo de la inmunidad mediada por células, y de que no existe una aparente falla en la capacidad fungicida de los macrófagos, bajo ciertas circunstancias, el H. capsulatum puede desenvolverse en este medio intracelular, el cual provee las condiciones nutricionales para el crecimiento del hongo y además, la posibilidad de acceso a otros órganos por las vías linfáticas y hemáticas. Pese a sucrecimiento intracelular, el medio interno dentro de los fagocitos es complejo y frecuentemente hostil al microorganismo. Los patógenos intracelulares deben superar una serie de obstáculos con el fin de prevenir su posible destrucción. En el presente artículo se revisan las estrategias de H. capsulatum para escapar a las agresiones del hospedero, desde el momento en que el parásito se encuentra sobre la superficie de la células hospedera hasta su sobrevivencia dentro de ésta. Además, se destacan los avences contemporáneos de los mecanismo de escape, utilizados por H. capsulatum, para facilitar su sobrevivencia en el medio ambiente intracelular

Paracoccidioidomicose na criança / Paracoccidioidomycosis in children

No presente trabalho estuda-se a Paracoccidioidomicose na criança, que tem sido assunto frequente de estudo nomeio universitário, devido a sua incidência relativamente elevada, constituindo-se, mesmo numa patologia regional de destaque. O objetivo principal foi situar a real participação da criança segundo a concepção atual da história natural da doença. Para tanto fez-se uma abrangente revisão da literatura, comparando-se os aspectos epidemiológicos, clínicos e imunopatológicos com o estudo retrospectivo dos prontuários de 30 pacientes menores de 12 anos de idade, portadores de paracoccidioidomicose, confirmada pelo encontro do parasito em exames diretos e internados em 3 hospitais de referência de Goiânia, no período de janeiro de 1970 a julho de 1990. Os dados dos prontuários foram sintetizados em 17 tabelas. Dos resultados definiram-se 3 grupos de formas clínicas: Linfático abdominal; Linfático hepatoesplênica e Linfática; dos exames específicos: no hemograma a anemia e a eosinofilia foram achados marcantes, na eletroforese de proteínas séricas a hipoalbuminemia e hiperglobulinemia às custas de gama foram evidenciadas; as sorologias e as intradermorreações foram provas que denunciaram o envolvimento do sistema imune com elevação da imunidade humoral e depleção da imunidade celular; dos exames radiológicos (torax, trânsito e enema)e ultrossonográficos do abdomen verifica-se que o pulmão é raramente comprometido dos RX do torax realizados; o trânsito intestinal detecta lesões da mucosa, sugestivas do envolvimento dos linfáticos da parede; a USG é um recurso diagnóstico não invasivo as massas intrabdominais e pode sugerir fibrose hepática

Wasting and macrophage production of tumor necrosis factor/cachectin and interleukin 1 in experimental visceral leishmaniasis.

Wasting and secretion of the catabolic cytokines tumor necrosis factor (TNF)/cachectin and interleukin 1 (IL-1) were assessed in weanling Syrian hamsters infected with Leishmania donovani amastigotes. Whereas the mean weight of uninfected animals increased progressively over 9 weeks, the mean weight of infected animals plateaued at 4-6 weeks and then decreased progressively until death. Splenic mononuclear cells from control hamsters produced 11.3 +/- 8.3 (SD) ng TNF/10(6) mononuclear cells/24 hr. TNF secretion in infected animals was greater than the mean +/- 2 SD of controls in 1 of 3 hamsters at 2 weeks post-infection and in 8 of 9 hamsters at weeks 4-8. The mean TNF secreted by infected animals studied at weeks 4-8 was 371 (range 28-800) ng TNF/10(6) mononuclear cells/24 hr (P = 0.005). Control hamsters produced 7.7 +/- 2.7 pg IL-1/10(6) mononuclear cells/24 hr. At 2 weeks, mononuclear cells from 2 of 3 infected animals secreted amounts of IL-1 greater than the mean +/- 2 SD of controls. All of 8 infected hamsters secreted increased amounts of IL-1 at 4-8 weeks. The mean was 164 (range 17-370) pg IL-1/10(6) mononuclear cells/24 hr (P = 0.002). In comparison to infected animals, mononuclear cells from control hamsters incubated with lipopolysaccharide, 10 micrograms/ml, produced 172.5 ng TNF and 44.6 pg of IL-1/10(6) mononuclear cells/24 hr. The effect of visceral leishmaniasis on food intake was assessed in a separate group of animals housed individually in metabolic cages. Significant reductions in weight and food intake were first observed at 2 and 3 weeks of infection, respectively. By 5 weeks, the food intake of infected animals was 46% that of controls. Syrian hamsters infected with L. donovani provide an excellent model with which to study the mechanism of wasting.

Role of hypochlorous acid in Trypanosoma musculi killing by phagocytes.

Trypanosoma musculi are readily killed when phagocytosed by mononuclear phagocytes but the nature of the mediators of this cytotoxicity is unclear. Among the most potent mediators are oxygen-derived species. The generation of chemiluminescence (CL) by peritoneal macrophages from 12 day T. musculi-infected mice, which phagocytose and kill parasites when opsonizing antibodies are present, was recorded in the presence of antibody-coated trypanosomes. Taurine, a specific quencher of hypochlorous acid (HOCl) inhibited CL production by peritoneal macrophages, showing that HOCl is produced during phagocytosis of T. musculi. In vitro, HOCl alone exerted a powerful trypanocidal activity which was inhibited in the presence of specific quenchers. The role of HOCl generated by phagocytes in trypanosome killing was studied using granulocytes which produce more oxygen-derived species than macrophages when stimulated. Phorbol myristate acetate-triggered granulocytes can destroy T. musculi and trypanosome killing is inhibited in the presence of taurine. These data demonstrate that HOCl produced by phagocytes can effectively destroy T. musculi.