Divergent effect of bacillus Calmette-Guérin (BCG) vaccination on Mycobacterium tuberculosis infection in highly related macaque species: implications for primate models in tuberculosis vaccine research.

Despite the widespread use of bacillus Calmette-Guérin vaccination, Mycobacterium tuberculosis infection remains globally the leading cause of death from a single infectious disease. The complicated and often protracted dynamics of infection and disease make clinical trials to test new tuberculosis vaccines extremely complex. Preclinical selection of only the most promising candidates is therefore essential. Because macaque monkeys develop a disease very similar to humans, they have potential to provide important information in addition to small animal models. To assess the relative merits of rhesus and cynomolgus monkeys as screens for tuberculosis vaccines, we compared the efficacy of bacillus Calmette-Guérin vaccination and the course of infection in both species. Unvaccinated rhesus and cynomolgus monkeys both developed progressive disease with high levels of C-reactive protein, M. tuberculosis-specific IgG, and extensive pathology including cavitation and caseous necrosis. Bacillus Calmette-Guérin vaccination protected cynomolgus almost completely toward the development of pathology, reflected in a striking 2-log reduction in viable bacteria in the lungs compared with nonvaccinated animals. Rhesus, on the other hand, were not protected efficiently by the bacillus Calmette-Guérin. The vaccinated animals developed substantial pathology and had negligible reductions of colony-forming units in the lungs. Comparative studies in these closely related species are likely to provide insight into mechanisms involved in protection against tuberculosis.

Cellular and humoral immune responses and protection against schistosomes induced by a radiation-attenuated vaccine in chimpanzees.

The radiation-attenuated Schistosoma mansoni vaccine is highly effective in rodents and primates but has never been tested in humans, primarily for safety reasons. To strengthen its status as a paradigm for a human recombinant antigen vaccine, we have undertaken a small-scale vaccination and challenge experiment in chimpanzees (Pan troglodytes). Immunological, clinical, and parasitological parameters were measured in three animals after multiple vaccinations, together with three controls, during the acute and chronic stages of challenge infection up to chemotherapeutic cure. Vaccination induced a strong in vitro proliferative response and early gamma interferon production, but type 2 cytokines were dominant by the time of challenge. The controls showed little response to challenge infection before the acute stage of the disease, initiated by egg deposition. In contrast, the responses of vaccinated animals were muted throughout the challenge period. Vaccination also induced parasite-specific immunoglobulin M (IgM) and IgG, which reached high levels at the time of challenge, while in control animals levels did not rise markedly before egg deposition. The protective effects of vaccination were manifested as an amelioration of acute disease and overall morbidity, revealed by differences in gamma-glutamyl transferase level, leukocytosis, eosinophilia, and hematocrit. Moreover, vaccinated chimpanzees had a 46% lower level of circulating cathodic antigen and a 38% reduction in fecal egg output, compared to controls, during the chronic phase of infection.

Antibodies to glycans dominate the host response to schistosome larvae and eggs: is their role protective or subversive?

Multiple exposures of chimpanzees to the radiation-attenuated schistosome vaccine provoked a strong parasite-specific cellular and humoral immune response. Specific IgM and IgG were directed mainly against glycans on antigens released by cercariae; these were also cross-reactive with soluble antigens from larvae, adult worms, and eggs. Egg deposition was the major antigenic stimulus after challenge of vaccinated and control chimpanzees with normal parasites, eliciting strong antiglycan responses to egg secretions. Glycan epitopes recognized included LacdiNAc, fucosylated LacdiNAc, Lewis(X) (weakly), and those on keyhole limpet hemocyanin. Antibodies to peptide epitopes became prominent only during the chronic phase of infection, as glycan-specific IgM and IgG decreased. Because of their intensity and cross-reactivity, the antiglycan responses resulting from infection could be a smoke screen to subvert the immune system away from more vulnerable larval peptide epitopes. Their occurrence in humans might explain the long time required for antischistosome immunity to build up after infection.

Expression of beta-defensin-1 in chimpanzee (Pan troglodytes) airways.

In human airways, beta-defensins function in the elimination of various pathogens. They have been identified in a wide range of species. Here we report the identification and expression of chimpanzee beta-defensin-1 (cBD1), which is a homolog of human beta-defensin-1, in chimpanzee airways and skin. The cBD1 cDNA sequence differs by only one synonymous nucleotide substitution compared to the human cDNA sequence. In situ hybridization revealed that in lung tissue beside alveolar macrophages also airway epithelial cells, endothelial cells and type II pneumocytes express cBD1 mRNA. In skin, cBD1 mRNA was expressed in keratinocytes and endothelial cells. Together, these results show similarity in structure and expression pattern and perhaps in function.

Reactivity of human T-lymphocyte-specific antibodies with peripheral blood mononuclear cells and spleen of Aotus azarae ssp. boliviensis (owl monkey).

Aotus monkeys offer one of the few models that can be used for the evaluation of the immunogenicity and efficacy of new vaccine candidates against the human malarias, Plasmodium falciparum and Plasmodium vivax. However, the tools available for evaluation of the immune responses in these New World primates are still limited. In the present study, a previously selected set of monoclonal antibodies that were raised against human T cell determinants and were reactive with at least one other primate species was investigated for its reactivity with Aotus lymphocytes using FACS analysis, indirect immunofluorescence (IFA) and immunohistochemistry. From a panel of 19 mAb, six were found to react consistently with Aotus lymphocytes using FACS analysis. Further evaluation of the mAb using IFA confirmed these findings. Analysis of the selected mAb on spleen sections of Aotus monkeys identified one anti-CD4 and one anti-CD8 mAb that can be used for immunohistochemical studies. The set of mAb identified in this study can be used for the detection of various T lymphocyte markers in peripheral blood and in tissues of Aotus monkeys. Together with data published by others, mAb are now identified for detection of six different markers of Aotus T lymphocytes. These mAb are very valuable for the characterisation of immune responses after vaccination and infection in the Aotus malaria models.

Replication, expression and segregation of plasmid-borne DNA in genetically transformed malaria parasites.

To fully exploit the transfection technology developed for Plasmodium we investigated the features of replication, expression and segregation of an episomally maintained DNA construct during a sexual blood stage development in genetically transformed parasites of P. berghei. Using DNA in situ hybridisation techniques we were able to show that the introduced DNA construct is located in the nucleus of the parasite and is not segregating uniformly during schizogony. Replication of the construct mainly takes place between 16 and 24 h after invasion of the merozoites, coinciding with chromosomal replication. Furthermore the plasmid-borne DHFR/TS gene is constitutively transcribed throughout the asexual blood stage development. Hence the DHFR/TS promoter would appear to be a useful tool in the study of (over)expression of introduced genes and performing complementation studies in transfected parasites during the complete a sexual blood stage development of P. berghei.

Species-specific regulation and switching of transcription between stage-specific ribosomal RNA genes in Plasmodium berghei.

Malaria parasites (Plasmodium spp.) differentially express structurally distinct sets of rRNA genes in a stage-specific manner. The four rRNA genes of the rodent malaria parasite, P. berghei, form two classes of 2 units that are genetically unlinked and termed A-type and S-type. Through Northern analysis and in situ hybridization, expression of the units was demonstrated in synchronized parasite preparations covering the developmental pathway from the initiation of the blood-stage asexual cycle to the production of mature ookinetes. A-type units were transcribed in direct response to cell growth in bloodstage asexual parasites yet were differentially regulated during male (inactive) and female (active) gametocytogenesis. S-type expression was not confined solely to the mosquito stages and exhibited a finite period of expression in a subset of bloodstage trophozoites that was significantly elevated in gametocyte-producing parasites. Unlike in the human parasite, P. falciparum, there was no evidence for accumulation of precursor forms of the S-type transcripts in gametocytes. No significant rRNA transcription was observed in cultured, fertilized ookinetes until approximately 20 h of development when S-type transcription was initiated. The results further demonstrate that in Plasmodium the expression of the different rRNA units is linked to developmental progression but in a species-specific manner.

Ultra-sensitive FISH using peroxidase-mediated deposition of biotin- or fluorochrome tyramides.

We describe a detection principle for indirect fluorescence in situ hybridization (FISH) methods that with only one or two antibody layers dramatically improves FISH signal intensities. The method uses as a first layer an anti-hapten immunoglobulin [or (strept)avidin] conjugated to peroxidase. The quintessence of the method is the use of fluorochrome- or biotin labelled tyramides as peroxidase substrates to generate and deposit many fluorochrome or biotin molecules close to the in situ bound peroxidase. These may either be directly evaluated under the fluorescence microscope or after another incubation with fluorochrome-labelled (strept)avidin.

Differential expression in blood stages of the gene coding for the 21-kilodalton surface protein of ookinetes of Plasmodium berghei as detected by RNA in situ hybridisation.

The developmentally regulated transcription of the gene encoding the ookinete surface protein, Pbs21, has been investigated in the rodent malaria parasite, Plasmodium berghei, by RNA in situ hybridisation using fluorescently labelled DNA probes. We used a procedure that will allow the visualisation of cytoplasmic mRNA in the parasite and of high copy DNA repeats in the nucleus. Specific hybridisation to Pbs21 mRNA occurred in the cytoplasm of female gametocytes, zygotes and ookinetes, while asexual blood stages, male gametocytes and gametes showed no fluorescence. Analysis of the transcription of the Pbs21 gene during blood stage development in two tightly synchronised parasite clones using the same methodology revealed that transcription is restricted to sexual stages and is initiated in immature gametocytes at 19 h post invasion (hpi). At this point in development it is not yet possible to discriminate between the morphology of asexual trophozoites and immature gametocytes. At 24 hpi approximately 50% of the gametocytes transcribed the Pbs21 gene and the morphology of these gametocytes was identical and female. The distribution of the mRNA encoding Pbs21 confirmed that post-transcriptional control of expression occurred in the cytoplasm by repression of translation and not through delayed transport of the message to the cytoplasm. The transcription of the Pbs21 gene is the earliest demonstrated event in gametocytogenesis in rodent malaria species to date.