Philippe Dubois

Protective antibodies against erythrocytic stages of Plasmodium falciparum in experimental infection of the squirrel monkey, Saimiri sciureus

Serum and ascitic fluid from squirrel monkeys (Saimiri sciureus) inoculated with erythrocytic stages of Plasmodium falciparum were collected at different periods of the infection. Protection against P. falciparum was achieved by passive transfer of the sera or fluid recovered from animals after spontaneous or drug‐induced cure. Purified immunoglobulins from the ascitic fluid also conferred protection. In contrast, protective antibodies directed against erythrocytic stages of P. falciparum could never be demonstrated during the acute phase of infection in spite of the high titres of malarial antibodies detected by immunofluorescence. The comparative immunochemical analysis of antigens recognized by protective and non‐protective antibodies revealed quantitative differences which may be of use for the identification of antigens inducing protection.

Is there a role for γδ T cells in malaria

Abstract Peripheral blood lymphocytes of the V γ 9 + family of γδ T cells proliferate vigorously in response to Plasmodium falciparum . In this brief article, Jean Langhorne and colleagues discuss this response and assess the possible role of γδ T cells in the pathogenesis of malaria.

Diagnostic Assays for Crimean-Congo Hemorrhagic Fever

On-site testing would diminish time, costs, and risks involved in handling of highly infectious materials.

Flow cytometry detection of surface antigens on fresh, unfixed red blood cells infected by Plasmodium falciparum

The immunofluorescence detection of parasite-specific antigens on the surface of red blood cells infected by Plasmodium falciparum parasites is usually performed by visual detection under a fluorescence microscope. We describe here a technique permitting the analysis of surface immunofluorescence labelling by flow cytometry. Infected red blood cells are selected on the basis of their parasitic DNA and RNA content by Hoechst and Thiazole Orange vital dyes. Cytometric analysis of these labels, as well as general erythrocyte characteristics assessed by analysis of forward and side scatter allows the selection of viable intact infected erythrocytes from other blood cells. The integrity of these selected erythrocytes was confirmed by the absence of labelling with antibodies directed against internal components such as spectrin. This technique permits the detection of specific surface immunofluorescence staining on red blood cells infected with mature stages of P. falciparum by antibodies in sera from hyperimmune Saimiri monkeys. Using Thiazole Orange dye for detection of parasitised cells, this analysis was performed on a FACSscan apparatus equipped with a single laser.

Long-Term Phenological Shifts in Raptor Migration and Climate

Climate change is having a discernible effect on many biological and ecological processes. Among observed changes, modifications in bird phenology have been widely documented. However, most studies have interpreted phenological shifts as gradual biological adjustments in response to the alteration of the thermal regime. Here we analysed a long-term dataset (1980-2010) of short-distance migratory raptors in five European regions. We revealed that the responses of these birds to climate-induced changes in autumn temperatures are abrupt and synchronous at a continental scale. We found that when the temperatures increased, birds delayed their mean passage date of autumn migration. Such delay, in addition to an earlier spring migration, suggests that a significant warming may induce an extension of the breeding-area residence time of migratory raptors, which may eventually lead to residency.

Manipulating blood T cells and B cells from squirrel monkeys: some technical considerations.

The squirrel monkey Saimiri sciureus is an experimental host for a range of human pathogens, and for the assessment of vaccine candidate antigens and vaccine strategies. This experimental host is thus particularly suitable for the follow-up of humoral responses. To understand some of the mechanisms that underlie the defense against experimental pathogens, there is a need of basic knowledge on cellular immune effectors also. The authors report here their experience in characterizing squirrel monkey blood T and B lymphocytes, and in studying in vitro induced activation and proliferation of T and B cells. Particular emphasis is given to the in vitro differentiation of squirrel monkey B cells into immunoglobulin secreting cells, with respect to Plasmodium falciparum antigens.

Application of high-density DNA resequencing microarray for detection and characterization of botulinum neurotoxin-producing clostridia.

Background Clostridium botulinum and related clostridia express extremely potent toxins known as botulinum neurotoxins (BoNTs) that cause severe, potentially lethal intoxications in humans. These BoNT-producing bacteria are categorized in seven major toxinotypes (A through G) and several subtypes. The high diversity in nucleotide sequence and genetic organization of the gene cluster encoding the BoNT components poses a great challenge for the screening and characterization of BoNT-producing strains. Methodology/Principal Findings In the present study, we designed and evaluated the performances of a resequencing microarray (RMA), the PathogenId v2.0, combined with an automated data approach for the simultaneous detection and characterization of BoNT-producing clostridia. The unique design of the PathogenID v2.0 array allows the simultaneous detection and characterization of 48 sequences targeting the BoNT gene cluster components. This approach allowed successful identification and typing of representative strains of the different toxinotypes and subtypes, as well as the neurotoxin-producing C. botulinum strain in a naturally contaminated food sample. Moreover, the method allowed fine characterization of the different neurotoxin gene cluster components of all studied strains, including genomic regions exhibiting up to 24.65% divergence with the sequences tiled on the arrays. Conclusions/Significance The severity of the disease demands rapid and accurate means for performing risk assessments of BoNT-producing clostridia and for tracing potentials sources of contamination in outbreak situations. The RMA approach constitutes an essential higher echelon component in a diagnostics and surveillance pipeline. In addition, it is an important asset to characterise potential outbreak related strains, but also environment isolates, in order to obtain a better picture of the molecular epidemiology of BoNT-producing clostridia.

Structure and function of a thymic peptide is mimicked by Plasmodium falciparum peptides

Numerous Plasmodium falciparum antigens contain repetitive amino acid sequences. Two blood stage antigens, Pf11-1 and Pf332, were characterized in our laboratories and present high cross-reactivities, defining a family of cross-reacting antigens. In this report, we show that amino acid sequence homologies might explain these cross-reactivities, but that they extend to polypeptides from the host, namely thymosin-alpha 1 (T alpha 1). An antiserum raised in chickens and Saimiri monkeys against the synthetic Pf11-1 peptide cross-reacts with synthetic T alpha 1. Synthetic Pf11-1 and Pf332 peptides share some of the biological activities of T alpha 1. These results are discussed with respect to the mechanisms devised by malaria parasites for escape from the host immune response.

Mimicking a conformational B cell epitope of the heat shock protein PfHsp70-1 antigen of Plasmodium falciparum using a multiple antigenic peptide.

The Pf72/Hsp70‐1 antigen is a major target in the naturally acquired immunity against Plasmodium falciparum malaria. We carried out an extensive analysis of the responses to several epitopes on the least conserved C‐terminal domain, according to the mode of sensitization: malaria infection or immunization with different immunogens. We found significant differences in the panel of B‐cell epitopes recognized by animal models including primates, and by humans sensitized by natural infection. We focused the analysis on one epitope that is unique to Plasmodium species. It is specifically recognized by a monoclonal antibody that mediates the killing of infected hepatocytes in vitro. We produced a polymeric multiple antigenic peptide (MAP) form of this sequence, which enabled us to identify a new B‐cell epitope not detected by ELISA with linear peptides. The polymer was strongly recognized by sera from monkeys or humans sensitized by natural infection, whereas the monomer was not. We modelled the three‐dimensional structure of the Pf72/Hsp70‐1 sequence, using known Escherischia coli DnaK structures as a template. This predicted that the corresponding region would form a loop in the native antigen. The results presented here suggest that the MAP strategy is also particularly useful as a means of obtaining suitable synthetic models for conformation‐dependent epitopes.

Cellular and antibody responses to the Plasmodium falciparum heat shock protein Pf72:HSP70 during and after acute malaria in individuals from an endemic area of Brazil

Proliferative and antibody responses to three synthetic peptides corresponding to Pf72/ HSP70 were followed-up in acute malaria patients from an endemic area of Brazil. In vitro lymphocyte responsiveness to all peptides was relatively low and short-lived and there was a considerable variation in the frequency and magnitude of the individual lymphoproliferative response to the peptides at different periods after the onset of infection. Although 96% of the patients had IgG antibodies to crude Plasmodium falciparum asexual blood stage antigens, specific IgG antibody responses to the peptides varied from 12.5 to 40% according to the tested peptides. No significant difference was observed in the proliferative or antibody responses to the peptides between individuals that remained parasitemic after treatment and those that recovered from malaria infection. The different frequencies of proliferative responses in peripheral blood T cells on different occasions after the onset of their infection show that, in order to be informative, evaluation of the in vitro cellular immune response to peptides requires longitudinal studies in which each individual is tested repeatedly.