Pathological changes associated with Eimeria falciformis and Eimeira vermiformis infections in the mouse (Mus musculus)

Rawlinson, E. M.

January 1985

No description available.

611

Coccidian protozoan parasites

Deposition and adhesion of cryptosporidium oocysts on surfaces

Pugh, Hedley James

January 1994

No description available.

628.168

Protozoan parasites; Filtration

Studies on immunology of Leishmania mexicana

Rezvan, Hossein

January 2007

Leishmaniasis is a worldwide disease prevalent in many tropical and sub tropical countries. Treatment of Leishmaniasis by chemotherapy is not wholly effective and is usually accompanied by unpleasant side effects. The development of an effective and inexpensive vaccine represents a practical way to control the disease, however at present no safe and effective vaccine is available. In the first part of the present study, the immunity induced by four different L. mexicana potential vaccines, including killed leishmania vaccine, Soluble L. mexicana Antigen (SLA), L. mexicana gp63 cDNA and CT26 tumour cells transfected with L. mexicana gp63, were compared. It was shown that DNA immunisation using L. mexicana gp63 generated the highest immunity to the parasite among the four tested vaccines where the killed leishmania vaccine and L. mexicana gp63 transfected CT26 tumour cells did not generate significant immunity. The efficacy of DNA immunisation by intramuscular injection or using gene gun, in generating immunity to leishmania was compared. Gene gun immunisation induced more immunity to the parasite and high levels of Th1 immune response, which were detected, one week after immunisation through determination of the IgG2a levels in blood serum. Gene gun immunisation also induced long-lasting CTL activity, which was detectable before and during the course of infection for up to 6 months. Immunogenicity of MHC class I restricted peptides derived from L. mexicana gp63 have been investigated. Using 'SYFPEITHI' software, four peptides with high affinity to human HLA-A2 and four peptides with high affinity to mouse H2-Ld were predicted, synthesized and tested in HHD II and BALB/c mice respectively. Only three of the peptides predicted with high affinity to HLA-A2 were immunogenic but only two of them were likely to be naturally processed, however, none were protective in HHD II mice against leishmania infection. Purification and application of OX40L, a ligand for T-cell co-stimulatory receptor, was investigated in L. mexicana BALB/c model. In addition to purification by protein A sepharose, the murine OX40L-IgG fusion protein produced by B9B8E2 cells (cells transfected with OX40L and IgG) was successfully purified by two novel resins, MBI & MEP. The biological activity of the OX40L-IgG purified by MBI resin was significantly higher than that of MEP or protein A sepharose resins. Application of OX40L-IgG resulted in healing of leishmania lesions or delaying in development of the lesions in leishmania-infected mice.

616.9364

Protozoan parasites

The cytopathogenicity of Entamoeba histolytica (strain NIH-200) in mammalian cell cultures

Al-Dujaili, K.

January 1984

No description available.

611

Intestinal protozoan parasites

Studies on altered gene expression in Theileria annulata infected cells of a related lineage

Dando, Caroline

January 1997

No description available.

572.8

Protozoan parasites; Bovine leukocyte

Characterisation of the LmcDNA2 gene family of Leishmania major

Dyall, Sabrina Devi

January 1996

No description available.

572.8

The production and recruitment of leukocytes during murine visceral leishmaniasis

Cotterell, Sarah Elizabeth Jane

January 1999

No description available.

610

Assessment of the Antiprotozoal Activity of some Tubulin Inhibitors Following Cyclodextrin Complexation.

pmenon1@optusnet.com.au, Kathleen Ilona Menon

January 2002

The purpose of the present study was to evaluate the potential usefulness of tubulin inhibitors when complexed with hydroxypropyl-â-cyclodextrin (ÇPâCD) against a range of protozoan parasites. This approach involved investigations into the complexation of these drugs with ÇPâCD, and subsequent investigations of these drugs and their complexes in regard to cytotoxicity, pharmacokinetics, in vitro efficacy against Giardia, Cryptosporidium and rodent malaria (Plasmodium chabaudi), and their in vivo efficacy against Giardia and malaria. Albendazole (ABZ) is a benzimidazole carbamate with a broad anti-parasite spectrum, while the dinitroanilines trifluralin (TF) and oryzalin (OZ) have recently been found to exhibit activity against certain parasites. All three compounds are microtubule antagonists in either nematodes or weeds and have poor aqueous solubility, with the solubility of ABZ and OZ dependent on pH. Cyclodextrins (CD) have a hydrophobic cavity that allows them to form inclusion complexes with hydrophobic drugs, resulting in increased drug aqueous solubility, and often, improved drug dissolution and bioavailability. Thus the complexation of these drugs with ÇPâCD was investigated. All three compounds exhibited type AL phase solubility diagrams with ÇPâCD complexation, with additional increases in ABZ and OZ solubility achieved through the manipulation of temperature and pH. OZ displayed a stronger interaction with ÇPâCD when ionised over its neutral form. However, insufficient concentrations of the TF/ÇPâCD complex were achieved for drug efficacy studies. The cytotoxicity of the drugs and their complexes was assessed using the assay kit Cytotox 96 with human carcinoma cells. This is a colourimetric assay that measures lactate dehydrogenase release as a consequence of compromised cellular and membrane integrity. Both ABZ and OZ are cytotoxic to rapidly proliferating and differentiating cells but are not cytotoxic to cells in the stationary phase. Complexation did not affect drug cytotoxicity. In pharmacokinetic studies, complexation improved ABZ (and metabolites) bioavailability, but had no significant affect on OZ bioavailability. In vitro drug assessment studies found ABZ to be highly effective against Giardia, and effectiveagainst Cryptosporidium and malaria. OZ on the other hand exhibited no activity against Giardia, but was effective against Cryptosporidium and malaria. Complexation did not improve the antiprotozoal efficacy of either ABZ or OZ. In particular, excess ÇPâCD decreased the antigiardial effects of ABZ, possibly due to competitive complex formation. In addition, complexation did not improve the antiprotozoal effects of ABZ in vivo. However, the cytotoxic effect of the ABZ/ÇPâCD complex was more evident in the treatment of malaria in vivo, resulting in increased anaemia and suppression in weight gain, due to the improved bioavailability of ABZ and metabolites. ÇPâCD alone was found to be cytotoxic at greater than 2.5%, and inhibited Giardia both in vitro and in vivo at greater than 1% and 2% respectively. This was attributed to membrane disruption caused by the dissolution and removal of membrane components. In comparison, malaria grew better in the presence of ÇPâCD in vitro, with no detrimental effect observed at up to 8% ÇPâCD. This was attributed to either the increased solubilization of a necessary media component, or the complexation and removal of an inhibitory compound from the cultivation medium. Therefore ÇPâCD complexation did not improve the antiprotozoal activity of the tubulin antagonists ABZ and OZ. However, the results of the pharmacokinetic studies suggest that anthelmintic activity of ABZ, particularly against systemic infections, may be improved with oral administration of the ABZ/ÇPâCD complex. In addition, the antiparasitic activity of ÇPâCD alone may be promising, especially against intestinal infections. Finally, the improved in vitro cultivation of P. chabaudi in the presence of ÇPâCD presents a promising approach to its potential long term cultivation.

Cyclodextrin Complexation

Tubulin Inhibitors

Antiprotozoal Activity

protozoan parasites

Caracterisation moléculaire et fonctionnelle de la jonction mobile contrôlant l'invasion de la cellule hôte par Toxoplasma gondii / molecular and cellular characterization of the mobile terminal governs the invasion Apicomplexa protozoan parasites

Roques, Magali

17 December 2012

Caractérisation moléculaire et fonctionnelle de la jonction mobile contrôlant l'invasion de la cellule hôte par Toxoplasma gondii. Les apicomplexes sont des parasites eucaryotes responsables d'infections humaines et animales, dont le paludisme et la toxoplasmose. La plupart sont des parasites intracellulaires obligatoires ; l'entrée dans la cellule hôte est donc un évènement crucial dans leur cycle de développement. Ce processus, conservé au sein du phylum, implique la sécrétion séquentielle du contenu de deux organites : les micronèmes et les rhoptries. Lors de l'invasion, le parasite établit un contact étroit entre son extrêmité apicale et la membrane plasmique de la cellule hôte, appelé la jonction mobile (JM). La JM est un point d'ancrage à la cellule hôte qui est initié chez Toxoplasma par la sécrétion de protéines du col des rhoptries appelées TgRON2/RON4/RON5/RON8 (complexe de RONs). Ces protéines sont sécrétées dans la cellule hôte et TgRON2 est insérée dans la membrane de la cellule hôte. TgRON2 peut servir de récepteur à la protéine TgAMA1 (Apical Membrane Antigen 1) qui est une protéine de micronèmes sécrétée à la surface du parasite durant l'invasion. L'interaction AMA1-RON2 est également conservée chez Plasmodium, mais il n'existe pas de réactivité croisée entre espèces d'apicomplexes. La résolution de la structure de la protéine recombinante TgAMA1 en complexe avec un peptide TgRON2 nous a permis de déterminer des résidus critiques à l'interaction entre ces deux protéines in vitro et à l'invasion du parasite in vivo, et de définir les bases structurales de la spécificité intra-espèce de l'interaction AMA1-RON2. Par l'obtention d'une souche dépourvue de TgAMA1, nous montrons qu'AMA1 n'est pas essentielle à la survie du toxoplasme, comme il avait été supposé depuis longtemps. Nous confirmons le rôle clé de cette protéine dans l'invasion et la formation de la JM. Les mutants dépourvus d'AMA1 sont capables d'insérer le complexe de RONs dans la cellule hôte mais se détachent plus fréquemment, entrainant des invasions abortives. L'invasion résiduelle observée en absence d'AMA1 pourrait impliquer des protéines homologues à TgAMA1, TgRON2 et TgRON4, dont nous avons entamé la caractérisation moléculaire et fonctionnelle.Mot-clés : Apicomplexes, Toxoplasma gondii, invasion, jonction mobile, micronèmes, rhoptries / Molecular and functional characterisation of the moving junction controlling host cell invasion by Toxoplasma gondiiAbstract:Apicomplexa are eukaryotic parasites responsible for a variety of human and animal diseases, including malaria or toxoplasmosis. Most of them have an obligatory intracellular stage; thus, the invasive process is a crucial step in their developmental cycle. It implies the sequential secretion of two organelles: micronemes and rhoptries. During invasion, the parasite establishes a structure called the moving junction (MJ), which is a close apposition between the apical end and the plasma membrane of host cell. The MJ is an anchoring point for invasion that is initiated in Toxoplasma by the secretion of rhoptry neck proteins named TgRON2/RON4/RON5/RON8 (the RONs complex). These proteins are exported to the host cell cytoplasm and TgRON2 spans the host cell membrane. There, TgRON2 will function as a receptor to Apical Membrane antigen 1 (TgAMA1), which is a micronemal protein displayed on the surface of the parasite during the invasion process. The AMA1-RON2 interaction is conserved in Plasmodium but there is no interspecies cross-binding.We have determined the structure of a TgAMA1 recombinant protein in complex with a TgRON2 peptide, which allowed us to determine which residues are critical for the interaction between both proteins in vitro and for parasite invasion in vivo. Moreover, the co-structure explains at the structural level the evolutionary constraint of the AMA1-RON2 interaction. By generating an AMA1 null strain in T. gondii, we demonstrate that TgAMA1 is not an essential gene, as claimed before. We confirm the importance of AMA1 in invasion and its key role in MJ formation. AMA1 null parasites insert the RON complex into the host cell but are more frequently detached from it, causing abortive invasions. The residual invasion might involve proteins homologous to TgAMA1, TgRON2 and TgRON4, for which the molecular and functional characterization is undertaken.Keywords: Apicomplexes, Toxoplasma gondii, invasion, moving junction, micronemes, rhoptries

Parasites protozoaires Apicomplexa

Toxoplasma gondii

Invasion

Apicomplexa protozoan parasites

Toxoplasma gondii

Invasion

Utilisation de la chimie "click" pour visualiser la pénétration de principes actifs dans les protozoaires parasites / Utilization of « click » chemistry for the visualization of drug entry into protozoan parasites

Terzic, Vida

31 August 2016

La recherche de nouvelles molécules à activité antiparasitaire pour lutter contre les parasites responsables de maladies telles que le paludisme ou la trypanosomiase humaine africaine est un enjeu primordial car il n’existe pas de vaccin pour ces maladies qui peuvent être mortelles et qui touchent près de 1/6 de la population mondiale. Dans ce contexte, il a été observé au laboratoire que l’amélioration de l’activité des molécules sur une cible isolée ne se retrouvait pas toujours sur les parasites. Une faible entrée de la molécule dans la cellule pourrait être une des causes de ce manque de corrélation, comme cela est souvent le cas dans la recherche de molécules actives.Pour valider ou non cette cause, ces travaux de thèse ont eu pour but de concevoir, synthétiser et évaluer de nouvelles sondes fluorescentes qui permettraient de visualiser la pénétration de molécules actives dans des cellules, en nous intéressant en particulier aux parasites responsables de la maladie du sommeil et du paludisme.Notre concept se base sur le principe de la chimie « click », sans catalyseur, impliquant une fonction alcyne et un groupement azoture. Ceci est possible lorsque la fonctionalcyne est insérée dans un cycle tendu comme celui d’un cyclooctyne qui lui confère une plus grande réactivité (Strain-Promoted Alkyne-Azide Cycloaddition).Nous avons synthétisé des dérivés de la dibenzocyclooctynone, une molécule fluorescente décrite pour réagir sans catalyseur avec des azotures, de manière à obtenir des sondes à détection « on-on’ ». Ainsi, sept nouvelles sondes fluorescentes ont été obtenues, dont trois réagissent avec des azotures avec une cinétique adéquate. Les propriétés photophysiques de ces molécules ont été caractérisées et nous avons vérifié qu’elles traversent bien la membrane des protozoaires parasites que nous étudions. La fluorescence n’est observée qu’à l’intérieur du parasite.La détection d’un azoture in cellulo a été vérifiée par HPLC- MS/MS avec une des sondes.Parmi les sept cyclooctynones obtenues, une sonde forme un adduit triazole fluorescent avec une cinétique acceptable, ce qui constitue le premier exemple de sonde « on-on’ » de cette série et une véritable avancée dans la chimie bio-orthogonale. / The discovery of new molecules with antiparasitic activity is crucial today to fight against infectious diseases such as malaria and HAT since no vaccine is available to cure these diseases. In our search for new antiparasitic compounds, we observed that activity improvement on an isolated target was not seen on parasite. We suspected an ineffective entry of the molecule into the cell to be one of the reasons for these uncorrelated results.To explore this possibility, this PhD work aimed to design, synthetize and evaluate new fluorescent probes that would allow the visualization of drug entry into parasites responsible for HAT and malaria.Our concept is based on “click” chemistry that can be achieved without catalyst, between an azide and a strained alkyne like cyclooctyne (Strain-Promoted Alkyne-Azide Cycloaddition).We synthetized derivatives of dibenzocyclooctynone, a fluorescent molecule described to undergo SPAAC reaction with azides, in order to obtain “on-on’” detection probes. Seven new fluorescent probes were therefore synthetized, among which three of them displayed adequate SPAAC kinetics. Photophysical properties of these molecules were characterized and their penetration into protozoan cells was demonstrated. Fluorescence was only observed in the parasitic cytosol.In cellulo azide detection was achieved and verified by LC- MS/MS with one of our probes.One out of the seven probes formed a fluorescent triazole adduct, which constitutes the first example of an « on-on’ » probe for this series and a real progress in bioorthogonal chemistry.

Chimie "click"

Dibenzocyclooctynes

Fluorescence

Parasites protozoaires

SPAAC

"Click" chemistry

Dibenzocyclooctynes

Fluorescence

Protozoan parasites

SPAAC