High-content and super-resolution microscopy reveals the dynamic nuclear architecture and mobile epigenetic marks in Plasmodium falciparum

Griffiths, Caron, A.

January 2012

The malaria-causing parasite Plasmodium falciparum 1s dependent on tightly regulated gene expression for its progression through the intra-erythrocytic life cycle, pathogenesis and establishment of persistent infection by evasion of the human host's immune system. Evidence points towards P. falciparum being unusually dependent on nuclear architecture and genomic organisation for the control of gene expression. Spatially defined nuclear regions of transcriptional activity have been detected and the spatial positioning of loci may determine their transcriptional potential. Additionally, a number of epigenetic markers have been shown to occupy spatially distinct subcompartments of the nuclear volume. Limitations of microscopic assays used until now have left us with a stereotyped and incomplete image of the organisation of the parasite nucleus and the transcriptional and epigenetic factors involved in the regulation of parasite gene expression, and the possible dynamics thereof. This work focused on the use of high-content and super-resolution fluorescent microscopy for the study and graphical representation of the spatial organisation of various nuclear factors involved in transcriptional regulation in P. falciparum parasites. The first objective (chapter 2) establishes P. falciparum parasite sample preparation and fluorescent labeling techniques for microscopy. Immunofluorescent labeling of var gene associated transcription repressive and permissive histone modifications, H3K9me3 and H3K9ac, respectively, as well as serine 2- phosphorylated RNA polymerase II and the putative transcription and splicing factor PfMyb2, was optimised. DNA fluorescent in situ hybridisation was also optimised for labeling of var gene exons. In the second objective (chapter 3), the assays established in the previous chapter are used for high-content combinatorial labeling in thousands of nuclei, followed by analysis using a bespoke computational algorithm for the detection and classification of different labeling patterns. This approach revealed a high level of diversity in the nuclear distributions of each assayed target. Superresolution stochastic optical reconstruction microscopy was used to further study the sub-diffraction organisation of selected labeling patterns. The data presented in this dissertation reveal that the complex spatial organisation of certain nuclear factors is subject to greater diversity within the nucleus of P. falciparum parasites than previously thought. / Dissertation (MSc)--University of Pretoria, 2012. / gm2013 / Biochemistry / unrestricted

Malaria

Parasite Plasmodium falciparum

Diseases

Var gene

UCTD

Multi-scale immune selection and the maintenance of structured antigenic diversity in the malaria parasite Plasmodium falciparum

Holding, Thomas Mitchell

January 2018

The most virulent malaria parasite, Plasmodium falciparum, makes use of extensive antigenic diversity to maximise its transmission potential. Parasite genomes contain several highly polymorphic gene families, whose products are the target of protective immune responses. The best studied of these are the PfEMP1 surface proteins, which are encoded by the var multi-gene family and are important virulence factors. During infection, the parasite switches expression between PfEMP1 variants in order to evade adaptive immune responses and prolong infection. On the population level, parasites appear to be structured with respect to their var genes into non-overlapping repertoires, which can lead to high reinfection rates. This non-random structuring of antigenic diversity can also be found at the level of individual var gene repertoires and var genes themselves. However, not much is known about the evolutionary determinants which select for and maintain this structure at different ecological scales. In this thesis I investigate the mechanisms by which multi-scale immune selection and other ecological factors influence the evolution of structured diversity. Using a suite of theoretical frameworks I show that treating diversity as a dynamic property, which emerges from the underlying infection and transmission processes, has a major effect on the relationship between the parasite’s transmis- sion potential and disease prevalence, with important implications for monitoring control efforts. Furthermore, I show that an evolutionary trade-off between within-host and between-host fitness together with functional constraints on diversification can explain the structured diversity found at both the repertoire and parasite population level and might also account for empirically observed exposure-dependent acquisition of immunity. Together, this work highlights the need to consider evolutionary factors acting at different ecological scales to gain a more comprehensive understanding of the complex immune-epidemiology of P. falciparum malaria.

510

Study of Platelet-mediated clumping adhesion phenotypes in Plasmodium falciparum malaria

Onyambu, Frank Gekara

January 2015

Platelet-mediated clumping of Plasmodium falciparum-infected erythrocytes (IEs) is a common property of field isolates associated with severe disease (Pain, Ferguson et al. 2001). Platelet receptors CD36 (Pain, Ferguson et al. 2001), P-Selectin (Wassmer, Taylor et al. 2008) and gC1qR (Biswas, Hafiz et al. 2007) mediate clumping. To characterize the molecular specificities of the clumping phenotype, I cloned clumping parasite line IT/C10 by limiting dilution. I characterized var gene expression in the IT/C10 clones using generic primers for the DBL tag region (Bull, Berriman et al. 2005). Clumping assays were conducted in the presence of specific reagents to delineate host factors hypothesized to contribute to development of the clumping phenotype. Finally, I conducted a clinical study with isolates from children with malaria in Kilifi, Kenya. This study shows that in parasite line IT/C10, platelet-mediated clumping is associated with Itvar30 suggesting a prominent role for the PfEMP-1 encoded by this var gene in development of platelet-mediated clumping. For IT/C10 parasites, platelet activation appears to be involved in platelet-mediated clumping. Platelet P-Selectin appears to mediate clumping using lectin-dependent interactions. To further elucidate the mechanisms that mediate clumping by host platelets, I have used a panel of platelet antagonists to delineate specific platelet activation pathways. Our results show that platelet activation plays an important role in platelet-mediated clumping. Finally, in this study, platelet-mediated clumping was associated with parasitaemia, but not with disease severity.

618.92

How Plasmodium falciparum malaria parasites bind to human brain endothelial cells

Claessens, Antoine

January 2011

Cerebral malaria is characterised by an accumulation of infected erythrocytes in the microvasculature of the brain. Plasmodium falciparum infected erythrocytes have been shown to bind to a Human Brain Endothelial Cell line (HBEC-5i) in vitro. This provides a model for the investigation of interactions between P. falcuparum and human brain endothelium. Currently neither the parasite adhesion ligands on infected erythrocytes, nor the host endothelial cell receptors necessary for this interaction have been identified. In this work, the identity of the host receptor on brain endothelial cells was addressed by binding assays of selected and unselected parasites on a wide range of malaria-associated host molecules. The identity of the parasite ligand was investigated by microarray analysis of parasites after selection for cytoadherence to HBEC-5i. The hypothesis being tested was that the gene encoding the parasite cytoadherence ligand would show significant upregulation in selected compared to unselected paarasites. The P. falciparum laboratory strains 3D7, HB3 and IT/FCR3 were selected for binding to HBEC-5i using a panning assay. Compared to unselected parasites, HBEC-5i selected parasites showed a distinct phenotype with reduced platelet-mediated clumping. There was no significant increase in binding of parasites to any of the known endothelial cytoadherence receptors for P. falciparum after selection on HBEC-5i. Binding inhibition assays with various antibodies and soluble receptors did not greatly block the adhesion of parasites to HBEC-5i except for heparin. Altogether, the receptor(s) mediating the interation with HBEC-5i remains unknown. In order to carry out transcriptional analysis of selected and unselected paarasites form all three parasite strains, it was necessary to update the existing microarray chip which is based on the 3D7 genome. This is because each parasite train has a unique repertoire of variant surface antigens (VSAs) including var, rif and stevor genes. Therefore, to fully analysis HB3 and IT genomes. Unique oligonnucleotide probes were then designed for each new sequence and the 3D7-based microarray chip was updated. Transcriptional analysis was then carried out on selected and unselected parasites of all strains. Microarray data clearly indicated that the most highly upregulated genes after selection were group A or group A-like var genes (HB3var3, 3D7_PFDOO2Oc, ITvar7 and ITvar19), showing 11 to over 100 fold upregulation in selected parasites. The rif gene adjacent to the upregulated var gene was also highly expressed. To a lesser extent some exported proteins like RESA-1, PfEMP3 or PHIST family members also showed increased transcription in HBEC-selected parasites (2-3 fold upregulation). Reverse transcriptase-PCR confirmed the upregulation of group A var genes in selected parasites, suggessted that the group A PfEMP1 variants are major candidate ligands for parasite binding to HBEC-5i. These findings are consistent with previous work showing an association between Group A var genes and cerebral malaria.

616.9883

Analyse des facteurs d’hôte et facteurs parasitaires dans le paludisme grave d’importation / Analysis of host factors and parasitic factors in severe imported malaria

Argy, Nicolas

06 July 2015

Le paludisme est une infection parasitaire de répartition mondiale notamment en zones intertropicales où l’infection par Plasmodium falciparum est responsable de centaines de milliers de morts par an principalement chez les enfants de moins de cinq ans. Le paludisme constitue également un problème en France par l’importation de cas de paludisme chez le voyageur de retour de zone d’endémie. L’infection à Plasmodium falciparum dans cette population, considérée comme à risque de développer les formes graves de la maladie, peut se présenter sous différentes formes cliniques plus ou moins associées au risque de mortalité. Même si certains facteurs de risque de gravité tels que l’âge et l’immunité ont été identifiés, cette interaction complexe hôte-parasite n’a été largement étudiée que chez l’enfant en zone d’endémie et peu de données sont disponibles pour le paludisme d’importation. L’objectif de ces travaux de thèse repose sur l’analyse des facteurs d’hôte et des facteurs parasitaires intervenant dans le paludisme d’importation. A travers le réseau de surveillance du centre national de référence du paludisme en France métropolitaine, l’ensemble des données démographiques, épidémiologiques, cliniques et biologiques des cas de paludisme d’importation, notifiés entre 2011 et 2015, ont été collectées ainsi que les échantillons ayant servis au diagnostic. Après expertise diagnostique, le plasma obtenu après centrifugation a été utilisé pour les dosages des antipaludéens, pour la quantification d’HRP2 ainsi que pour la sérologie anti-palustre. L’ARN extrait par le TRIZOL® à partir du culot globulaire a été utilisé pour l’étude de l’expression des gènes var et des domaines cassettes par qRT-PCR. Le culot de globules rouges parasités a été mis en culture pour la maturation des formes parasitaires en vue de l’étude du phénotype de cytoadhérence sur les récepteurs solubles CD36, ICAM-1, EPCR et du phénomène de rosetting . L’ensemble de ces études a été réalisé sur une population de patients dans le cadre du paludisme d’importation groupée en migrants de première génération, migrants de deuxième génération et voyageurs/expatriés et dont la présentation clinique du paludisme d’importation a été classée en paludisme « très grave », paludisme « grave » et paludisme « simple ». L’ensemble des données épidémiologiques, cliniques et biologiques recueillies au cours de l’étude a permis d’identifier l’âge élevé, l’origine ethnique, la profondeur de la thrombopénie et l’absence d’antécédents de paludisme comme des facteurs de risque associés à la survenue d’un accès palustre « très grave », entité clinique caractérisée pour une biomasse parasitaire séquestrée élevée. L’effet de la pré-exposition au parasite, reflété par le statut sérologique des patients, semble être à l’origine de la présentation clinique de la maladie en limitant notamment la biomasse parasitaire séquestrée au cours de l’accès palustre. L’étude de l’expression des gènes var et des domaines cassettes réalisée dans cette population, en fonction de la présentation clinique, de l’origine ethnique et du statut sérologique des patients, a révélé une surexpression du groupe de gènes var A et B et des motifs protéiques composant les domaines cassettes DC4, DC8 et DC13 dans le paludisme « grave » et « très grave » d’importation au sein de cette population hétérogène de patients. L’étude du phénotype de cytoadhérence et du rosetting, réalisée dans un autre groupe de patients rencontré dans le cadre du paludisme d’importation, a identifié le rosetting comme le phénotype d’adhérence à l’origine de l’accès palustre « très grave ». Le profil d’expression des gènes var et domaines cassettes correspondants à cette population a confirmé les observations antérieures et corrèle le phénotype de rosetting à l’expression des motifs protéiques DBLß3 et DBLa2 de DC4 et DC8 (...) / Malaria is a worldwide parasitic infection especially in tropical area where Plasmodium falciparum infection is responsible for hundreds of thousands annually mainly among children under five years old. Malaria is also a problem in France by the importation of malaria cases in travelers coming from endemic area. The Plasmodium falciparum infection in this population, considered at risk of developping severe malaria, can present different clinical forms more or less associated with mortality.While some risk factors for severity like age and immunity have been identified, this complex host-parasite interactions have been widely studied in children in endemic areas and few data are available for imported malaria. The aim of the thesis work is based on analysis of host factors and parasite factors in imported malaria.Through the monitoring network of the French National reference center of malaria, all the demographic, epidemiological, clinical and laboratory of imported malaria cases, notified between 2011 and 2015, were collected and also samples of the parasitological diagnosis. After diagnostic expertise, the plasma obtained after centrifugation was used for determinations of antimalarial drugs, for quantification of plasmatic HRP2 and for serological tests. RNA extracted by the Trizol® from red cells pellets was used to study the expression of var genes and domain cassettes by qRT-PCR. The pellet of parasitized red blood cells were cultured for maturation of parasitic forms for the study of phenotype cytoadherence on soluble receptor CD36, ICAM-1 and EPCR and for the study of the rosetting phenomenon. All of these studies was conducted in an imported malaria context,in a population of patients composed by first-generation migrants, second-generation migrants and travelers / expatriates and whose clinical presentation of imported malaria was classified into very severe (VSM), mild severe (MSM) and uncomplicated malaria (UM).All the epidemiological, clinical and biological data collected during the study identified the high age, ethnicity, depth of thrombocytopenia and no history of malaria as factors risk associated with the occurrence of very severe malaria, clinical entity characterized by high sequestered parasite biomass. The effect of pre-exposure to the parasite, reflected by the serological status of patients, seems to be the cause of the clinical presentation of the disease in particular by limiting parasite biomass sequestered during malaria. The study of the expression of var genes and domain cassettes performed in this population, according to clinical presentation, ethnicity and the serological status of patients, revealed an overexpression of the group of var genes A and B and protein patterns of the domain cassette DC4, DC8 and DC13 in mild severe and very severe malaria within this heterogeneous patient population. The study of cytoadherence phenotype and rosetting, made in another group of patients in imported malaria context, identified the rosetting as adhesion phenotype causing very severe malaria. The expression profile of var genes and domain cassettes corresponding to this population confirmed earlier observations and correlates rosetting phenotype to the expression of DBLß3 and DBLa2 of DC4 and DC8 (...)

Plasmodium falciparum

Paludisme d'importation

Gène var

Domain cassette

Paludisme grave

Séquestration

Rosetting

Cytoadhérance

Plasmodium falciparum

Imported malaria

Var gene

Domain cassette

Severe malaria

Sequestration

Rosetting

Cytoadherence

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