Hong Zheng scite author profile

Intermittent episodes of febrile illness are the most benign and recognized symptom of infection with malaria parasites, although the effects on parasite survival and virulence remain unclear. In this study, we identified the molecular factors altered in response to febrile temperature by measuring differential expression levels of individual genes using high-density oligonucleotide microarray technology and by performing biological assays in asexual-stage Plasmodium falciparum parasite cultures incubated at 37°C and 41°C (an elevated temperature that is equivalent to malaria-induced febrile illness in the host). Elevated temperature had a profound influence on expression of individual genes; 336 of approximately 5,300 genes (6.3% of the genome) had altered expression profiles. Of these, 163 genes (49%) were upregulated by twofold or greater, and 173 genes (51%) were downregulated by twofold or greater. In-depth sensitive sequence profile analysis revealed that febrile temperature-induced responses caused significant alterations in the major parasite biologic networks and pathways and that these changes are well coordinated and intricately linked. One of the most notable transcriptional changes occurs in genes encoding proteins containing the predicted Pexel motifs that are exported into the host cytoplasm or inserted into the host cell membrane and are likely to be associated with erythrocyte remodeling and parasite sequestration functions. Using our sensitive computational analysis, we were also able to assign biochemical or biologic functional predictions for at least 100 distinct genes previously annotated as "hypothetical." We find that cultivation of P. falciparum parasites at 41°C leads to parasite death in a time-dependent manner. The presence of the "crisis forms" and the terminal deoxynucleotidyltransferasemediated dUTP-biotin nick end labeling-positive parasites following heat treatment strongly support the notion that an apoptosis-like cell death mechanism might be induced in response to febrile temperatures. These studies enhance the possibility of designing vaccines and drugs on the basis of disruption in molecules and pathways of parasite survival and virulence activated in response to febrile temperatures.

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RANKL-Mediated Osteoclast Formation from Murine RAW 264.7 Cells

Collin‐Osdoby

Zheng

et al.

104

141

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Analysis of Heritability and Shared Heritability Based on Genome-Wide Association Studies for Thirteen Cancer Types

Sampson¹,

Wheeler²,

Yeager³

et al. 2015

JNCI.J

154

128

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Centrins, Cell Cycle Regulation Proteins in Human Malaria Parasite Plasmodium falciparum

Mahajan

Selvapandiyan

Gerald

et al. 2008

Journal of Biological Chemistry

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Molecules and cellular mechanisms that regulate the process of cell division in malaria parasites remain poorly understood. In this study we isolate and characterize the four Plasmodium falciparum centrins (PfCENs) and, by growth complementation studies, provide evidence for their involvement in cell division. Centrins are cytoskeleton proteins with key roles in cell division, including centrosome duplication, and possess four Ca 2؉ -binding EF hand domains. By means of phylogenetic analysis, we were able to decipher the evolutionary history of centrins in eukaryotes with particular emphasis on the situation in apicomplexans and other alveolates. Plasmodium possesses orthologs of four distinct centrin paralogs traceable to the ancestral alveolate, including two that are unique to alveolates. By real time PCR and/or immunofluorescence, we determined the expression of PfCEN mRNA or protein in sporozoites, asexual blood forms, gametocytes, and in the oocysts developing inside mosquito mid-gut. Immunoelectron microscopy studies showed that centrin is expressed in close proximity with the nucleus of sporozoites and asexual schizonts. Furthermore, confocal and widefield microscopy using the double staining with ␣-tubulin and centrin antibodies strongly suggested that centrin is associated with the parasite centrosome. Following the episomal expression of the four PfCENs in a centrin knock-out Leishmania donovani parasite line that exhibited a severe growth defect, one of the PfCENs was able to partially restore Leishmania growth rate and overcome the defect in cytokinesis in such mutant cell line. To our knowledge, this study is the first characterization of a Plasmodium molecule that is involved in the process of cell division. These results provide the opportunity to further explore the role of centrins in cell division in malaria parasites and suggest novel targets to construct genetically modified, live attenuated malaria vaccines.

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A Novel ChimericPlasmodium vivaxCircumsporozoite Protein Induces Biologically Functional Antibodies That Recognize both VK210 and VK247 Sporozoites

et al. 2007

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A successful vaccine against Plasmodium vivax malaria would significantly improve the health and quality of the lives of more than 1 billion people around the world. A subunit vaccine is the only option in the absence of long-term culture of P. vivax parasites. The circumsporozoite protein that covers the surface of Plasmodium sporozoites is one of the best-studied malarial antigens and the most promising vaccine in clinical trials. We report here the development of a novel "immunologically optimal" recombinant vaccine expressed in Escherichia coli that encodes a chimeric CS protein encompassing repeats from the two major alleles, VK210 and VK247. This molecule is widely recognized by sera from patients naturally exposed to P. vivax infection and induces a highly potent immune response in genetically disparate strains of mice. Antibodies from immunized animals recognize both VK210 and VK247 sporozoites. Furthermore, these antibodies appear to be protective in nature since they cause the agglutination of live sporozoites, an in vitro surrogate of sporozoite infectivity. These results strongly suggest that recombinant CS is biologically active and highly immunogenic across major histocompatibility complex strains and raises the prospect that in humans this vaccine may induce protective immune responses.Outside of sub-Saharan Africa, Plasmodium vivax is the most prevalent of all human malarias. In addition to being present in tropical and subtropical regions, the ability of the parasite to complete its mosquito cycle at temperatures as low as 15°C has also allowed it to be spread in temperate climates. A unique feature of P. vivax is that some strains are capable of causing delayed infection by remaining latent for several months in the liver before emerging into the circulation to manifest clinical symptoms. Such individuals have been known to maintain transmission of malaria in areas where it is no longer naturally transmitted (41). Although P. vivax is usually not fatal, it is responsible for ca. 50% of all malaria cases worldwide (20). The large number of clinical cases and the severe morbidity this type of malaria causes contributes to a serious economic impact in developing countries. Recently, reports of severe forms of malaria caused by P. vivax infection have begun to appear (42). However, due to the fact that the disease caused by P. vivax is less lethal than P. falciparum, investments made to develop a vaccine against this parasite are lagging far behind. There is a need for concerted efforts toward developing vaccines to control the global transmission of P. vivax infections.Malaria parasites, while developing within hepatocytes, do not cause clinical illness and therefore are ideal targets for designing vaccines to protect children and malaria-naive adults against infection. Immunization with irradiation-attenuated malaria sporozoites has long been shown to induce protection against experimental sporozoite challenge in animal models and in humans (13,25), and currently efforts are ongoing to develop go...

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Hong Zheng

Molecular Factors and Biochemical Pathways Induced by Febrile Temperature in Intraerythrocytic Plasmodium falciparum Parasites

RANKL-Mediated Osteoclast Formation from Murine RAW 264.7 Cells

Analysis of Heritability and Shared Heritability Based on Genome-Wide Association Studies for Thirteen Cancer Types

Centrins, Cell Cycle Regulation Proteins in Human Malaria Parasite Plasmodium falciparum

A Novel ChimericPlasmodium vivaxCircumsporozoite Protein Induces Biologically Functional Antibodies That Recognize both VK210 and VK247 Sporozoites

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