Your search keyword '"GAMETOCYTE"' showing total 3,492 results

201. Blocking Plasmodium falciparum Malaria Transmission with Drugs: The Gametocytocidal and Sporontocidal Properties of Current and Prospective Antimalarials

Author

Anthony E. Kiszewski

Subjects

Plasmodium, gametocyte, sporogony, antimalarials, transmission-blocking, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Drugs that kill or inhibit the sexual stages of Plasmodium could potentially amplify or synergize the impact of other interventions by blocking transmission to mosquitoes. Primaquine and other 8-aminoquinolines have long offered such potential, but safety and other concerns have limited their use. Although transmission-blocking properties are not often a priority of drug discovery efforts, a number of interesting gametocytocidal and/or sporontocidal drug candidates have emerged in recent years. Some still bear significant technical and safety concerns, while others have passed clinical trials and are on the verge of entering the antimalarial armamentarium. Recent advances in our knowledge of gametocyte differentiation, gametogenesis and sporogony have also led to the identification of a large array of potential new targets for drugs that might interfere with malaria transmission. This review examines the properties of existing and prospective drugs, mechanisms of action, counter-indications and their potential role in regional malaria elimination efforts.

Published

2010

202. Antimalarial Activity of Artefenomel Against Asexual Parasites and Transmissible Gametocytes During Experimental Blood-Stage Plasmodium vivax Infection

Author

James S. McCarthy, Jörg J. Möhrle, Stephan Chalon, Nathalie Gobeau, Katharine A. Collins, Louise Marquart, Paul M. Griffin, Emma Ballard, and Azrin N Abd-Rahman

Subjects

0301 basic medicine, Plasmodium falciparum, 030231 tropical medicine, 030106 microbiology, Plasmodium vivax, Adamantane, Parasitemia, Antimalarials, 03 medical and health sciences, Minimum inhibitory concentration, 0302 clinical medicine, All institutes and research themes of the Radboud University Medical Center, parasitic diseases, Malaria, Vivax, Gametocyte, medicine, Animals, Humans, Immunology and Allergy, Parasite hosting, Parasites, Dosing, Malaria, Falciparum, Volunteer, biology, business.industry, medicine.disease, biology.organism_classification, Virology, Peroxides, Culicidae, Infectious Diseases, lnfectious Diseases and Global Health Radboud Institute for Health Sciences [Radboudumc 4], Folic Acid Antagonists, business, Malaria

Abstract

Background Interventions that effectively target Plasmodium vivax are critical for the future control and elimination of malaria. We conducted a P. vivax volunteer infection study to characterize the antimalarial activity of artefenomel, a new drug candidate. Methods Eight healthy, malaria-naive participants were intravenously inoculated with blood-stage P. vivax and subsequently received a single oral 200-mg dose of artefenomel. Blood samples were collected to monitor the development and clearance of parasitemia, and plasma artefenomel concentration. Mosquito feeding assays were conducted before artefenomel dosing to investigate parasite transmissibility. Results Initial parasite clearance occurred in all participants after artefenomel administration (log10 parasite reduction ratio over 48 hours, 1.67; parasite clearance half-life, 8.67 hours). Recrudescence occurred in 7 participants 11–14 days after dosing. A minimum inhibitory concentration of 0.62 ng/mL and minimum parasiticidal concentration that achieves 90% of maximum effect of 0.83 ng/mL were estimated, and a single 300-mg dose was predicted to clear 109 parasites per milliliter with 95% certainty. Gametocytemia developed in all participants and was cleared 4–8 days after dosing. At peak gametocytemia, 75% of participants were infectious to mosquitoes. Conclusions The in vivo antimalarial activity of artefenomel supports its further clinical development as a treatment for P. vivax malaria. Clinical Trials Registration NCT02573857.

Published

2022

203. Phosphodiesterase delta governs the mechanical properties of erythrocytes infected with Plasmodium falciparum gametocytes.

Author

N'Dri, Marie-Esther, Tavella, Tatyana Almeida, Royer, Ludivine, Dupuy, Florian, Bedault, Laurianne, Verdier, Frédérique, and Lavazec, Catherine

Subjects

*PLASMODIUM falciparum, *GERM cells, *CYCLIC adenylic acid, *ERYTHROCYTE deformability, *ERYTHROCYTES, *BLOOD circulation, *PHOSPHODIESTERASES

Abstract

To persist in the blood circulation and to be available for mosquitoes, Plasmodium falciparum gametocytes modify the deformability and the permeability of their erythrocyte host via cyclic AMP (cAMP) signaling pathway. Cyclic nucleotide levels are tightly controlled by phosphodiesterases (PDE), however in Plasmodium these proteins are poorly characterized. Here, we characterize the P. falciparum phosphodiesterase delta (Pf PDEδ) and we investigate its role in the cAMP signaling-mediated regulation of gametocyte-infected erythrocyte mechanical properties. Our results revealed that Pf PDEδ is a dual-function enzyme capable of hydrolyzing both cAMP and cGMP, with a higher affinity for cAMP. We also show that Pf PDEδ is the most expressed PDE in mature gametocytes and we propose that it is located in parasitophorous vacuole at the interface between the host cell and the parasite. We conclude that Pf PDEδ is the master regulator of both the increase in deformability and the inhibition of channel activity in mature gametocyte stages, and may therefore play a crucial role in the persistence of mature gametocytes in the bloodstream. [ABSTRACT FROM AUTHOR]

Published

2023

204. Identification and analysis of Eimeria nieschulzi gametocyte genes reveal splicing events of gam genes and conserved motifs in the wall-forming proteins within the genus Eimeria (Coccidia, Apicomplexa).

Author

Wiedmer, Stefanie, Erdbeer, Alexander, Volke, Beate, Randel, Stephanie, Kapplusch, Franz, Hanig, Sacha, and Kurth, Michael

Abstract

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Published

2017

205. Infection of laboratory colonies of Anopheles mosquitoes with Plasmodium vivax from cryopreserved clinical isolates.

Author

Shaw-Saliba, Kathryn, Clarke, David, Santos, Jorge M., Menezes, Maria José, Lim, Caeul, Mascarenhas, Anjali, Chery, Laura, Gomes, Edwin, March, Sandra, Bhatia, Sangeeta N., Rathod, Pradipsinh K., Ferreira, Marcelo U., Catteruccia, Flaminia, and Duraisingh, Manoj T.

Subjects

*COLONIES (Biology), *PLASMODIUM vivax, *ANOPHELES, *MALARIA treatment, *CRYOBIOLOGY, MALARIA transmission

Abstract

Plasmodium vivax is the most geographically widespread malaria parasite. Unique features of transmission biology complicate P. vivax control. Interventions targeting transmission are required for malaria eradication. In the absence of an in vitro culture, transmission studies rely on live isolates from non-human primates or endemic regions. Here, we demonstrate P. vivax gametocytes from both India and Brazil are stable during cryopreservation. Importantly, cryopreserved gametocytes from Brazil were capable of infecting three anopheline mosquito species in feedings done in the United States. These findings create new opportunities for transmission studies in diverse locales. [ABSTRACT FROM AUTHOR]

Published

2016

206. Translational repression of the cpw-wpc gene family in the malaria parasite Plasmodium.

Author

Rao, Pavitra N., Santos, Jorge M., Pain, Arnab, Templeton, Thomas J., and Mair, Gunnar R.

Subjects

*PLASMODIUM, *GENETIC transcription regulation, *MALARIA vaccines, *ANTIGENS, *APICOMPLEXA, *IMMUNOPRECIPITATION

Abstract

The technical challenges of working with the sexual stages of the malaria parasite Plasmodium have hindered the characterization of sexual stage antigens in the quest for a successful malaria transmission-blocking vaccine. One such predicted and largely uncharacterized group of sexual stage candidate antigens is the CPW-WPC family of proteins. CPW-WPC proteins are named for a characteristic domain that contains two conserved motifs, CPxxW and WPC. Conserved across Apicomplexa, this family is also present earlier in the Alveolata in the free-living, non-parasitophorous, photosynthetic chromerids, Chromera and Vitrella . In Plasmodium falciparum and Plasmodium berghei blood stage parasites, the transcripts of all nine cpw-wpc genes have been detected in gametocytes. RNA immunoprecipitation followed by reverse transcriptase-PCR reveals all P. berghei cpw-wpc transcripts to be bound by the translational repressors DOZI and CITH, and thus are likely under translational control prior to transmission from the rodent host to the mosquito vector in P. berghei . The GFP tagging of two endogenous P. berghei genes confirmed translational silencing in the gametocyte and translation in ookinetes. By establishing a luciferase transgene assay, we show that the 3′ untranslated region of PF3D7_1331400 controls protein expression of this reporter in P. falciparum gametocytes. Our analyses suggest that cpw-wpc genes are translationally silenced in gametocytes across Plasmodium spp. and activated during ookinete formation and thus may have a role in transmission to the mosquito. [ABSTRACT FROM AUTHOR]

Published

2016

207. An inter-laboratory comparison of standard membrane-feeding assays for evaluation of malaria transmission-blocking vaccines.

Author

Miura, Kazutoyo, Stone, Will J. R., Koolen, Karin M., Deng, Bingbing, Zhou, Luwen, van Gemert, Geert-Jan, Locke, Emily, Morin, Merribeth, Bousema, Teun, Sauerwein, Robert W., Long, Carole A., and Dechering, Koen J.

Subjects

*MALARIA, *PLASMODIUM falciparum, *GERM cells, *ANOPHELES, *OOCYSTS, *VACCINATION, MALARIA transmission

Abstract

Background: An effective malaria transmission-blocking vaccine may play an important role in malaria elimination efforts, and a robust biological assay is essential for its development. The standard membrane-feeding assay (SMFA) for Plasmodium falciparum infection of mosquitoes is considered a "gold standard" assay to measure transmissionblocking activity of test antibodies, and has been utilized widely in both non-clinical and clinical studies. While several studies have discussed the inherent variability of SMFA within a study group, there has been no assessment of interlaboratory variation. Therefore, there is currently no assurance that SMFA results are comparable between different studies. Methods: Mouse anti-Pfs25 monoclonal antibody (mAb, 4B7 mAb), rat anti-Pfs48/45 mAb (85RF45.1 mAb) and a human polyclonal antibody (pAb) collected from a malaria-exposed adult were tested at the same concentrations (6-94 μg/mL for 4B7, 1.2-31.3 μg/mL for 85RF45.1 and 23-630 μg/mL for human pAb) in two laboratories following their own standardized SMFA protocols. The mAbs and pAb, previously shown to have strong inhibition activities in the SMFA, were tested at three or four concentrations in two or three independent assays in each laboratory, and percent inhibition in mean oocyst intensity relative to a control in the same feed was determined in each feeding experiment. Results: Both monoclonal and polyclonal antibodies dose-dependently reduced oocyst intensity in all experiments performed at the two test sites. In both laboratories, the inter-assay variability in percent inhibition in oocyst intensity decreased at higher levels of inhibition, regardless of which antibody was tested. At antibody concentrations that led to a >80 % reduction in oocyst numbers, the inter-laboratory variations were in the same range compared with the inter-assay variation observed within a single laboratory, and the differences in best estimates from multiple feeds between the two laboratories were <5 percentage points. Conclusions: This study confirms previous reports that the precision of the SMFA increases with increasing percent inhibition. Moreover, the variation between the two laboratories is not greater than the variation observed within a laboratory. The findings of this study provide guidance for comparison of SMFA data from different laboratories. [ABSTRACT FROM AUTHOR]

Published

2016

208. The RNA-binding protein Puf1 functions in the maintenance of gametocytes in Plasmodium falciparum.

Author

Sony Shrestha, Xiaolian Li, Gang Ning, Jun Miao, and Liwang Cui

Subjects

*RIBOSOMAL DNA, *RNA world hypothesis, *SYNCRIP protein, *NUCLEIC acids, *PLASMODIUM falciparum

Abstract

Translation control plays an important role in the regulation of gene expression in the malaria parasite Plasmodium falciparum, especially in transition stages between the vertebrate host and mosquito vector. Here, we determined the function of the Puf-family member Puf1 (denoted as PfPuf1 for the P. falciparum protein) during P. falciparum sexual development. We show that PfPuf1 was expressed in all gametocyte stages and at higher levels in female gametocytes. PfPuf1 disruption did not interfere with the asexual erythrocyte cycle of the parasite but resulted in an approximately tenfold decrease of mature gametocytes. In the PfPuf1-disrupted lines, gametocytes appeared normal before stage III but subsequently exhibited a sharp decline in gametocytemia. This was accompanied by a concomitant accumulation of dead and dying late-stage gametocytes, which retained normal gross morphology. In addition, significantly more female gametocytes were lost in the PfPuf1-disrupted lines during development, resulting in a reversed male-to-female sex ratio. These results indicate that PfPuf1 is important for the differentiation and maintenance of gametocytes, especially female gametocytes. [ABSTRACT FROM AUTHOR]

Published

2016

209. A novel validated assay to support the discovery of new anti-malarial gametocytocidal agents.

Author

Bahamontes-Rosa, Noemí, Gomez-Lorenzo, María G., Lelièvre, Joël, Rodriguez Alejandre, Ane, Almela, María Jesus, Lozano, Sonia, Herreros, Esperanza, and Gamo, Francisco-Javier

Subjects

*PLASMODIUM falciparum, *REAL-time control, *GENE expression, *MESSENGER RNA, *GERM cells

Abstract

Background: Drugs that kill or inhibit Plasmodium gametocytes in the human host could potentially synergize the impact of other chemotherapeutic interventions by blocking transmission. To develop such agents, reliable methods are needed to study the in vitro activity of compounds against gametocytes. This study describes a novel assay for characterizing the activity of anti-malarial drugs against the later stages of Plasmodium falciparum gametocyte development using real-time PCR (qPCR). Methods: Genes previously reported to be transcribed at the different sexual stages of the gametocytogenesis were selected for study and their mRNA expression was measured in a gametocytogenesis course by qPCR. Genes mainly expressed in the later stages of gametocyte development were used as a surrogate measurement of drug activity. To distinguish between cidal and static drug effects, two different experiments were performed in parallel, one with constant drug pressure throughout the experiment (144 h), and another in which the gametocyte cultures were exposed to the compound for only 48 h. Results: Four P. falciparum genes coding for proteins Pf77, ROM3, Pfs25, and Pfg377 with transcription specific for late-stage gametocyte development were identified. The in vitro anti-malarial activity of compounds against such gametocytes was assessed by measuring mRNA levels of these genes using qPCR. The assay was validated against standard anti-malarial drugs (epoxomicin, dihydroartemisinin, chloroquine, thiostrepton, and methylene blue) and compounds from the GSK compound library with known anti-gametocyte activity. Conclusions: This study describes a novel assay for characterizing the activity of anti-malarial drugs against the later stages of P. falciparum gametocyte development using qPCR in genetically unmodified parasites. The method described is a reliable and user-friendly technique with a medium throughput that could be easily implemented in any laboratory. [ABSTRACT FROM AUTHOR]

Published

2016

210. Gametocyte carriage in uncomplicated Plasmodium falciparum malaria following treatment with artemisinin combination therapy: a systematic review and meta-analysis of individual patient data.

Author

WWARN Gametocyte Study Group

Subjects

*GERM cells, *PLASMODIUM falciparum, *MALARIA treatment, *ARTEMISININ, *MOSQUITOES, *THERAPEUTICS, *DRUG therapy for malaria, *PROTOZOA physiology, *ANTIMALARIALS, *AMODIAQUINE, *COMBINATION drug therapy, *COMPARATIVE studies, *RESEARCH methodology, *MEDICAL cooperation, *META-analysis, *MICROSCOPY, *PROTOZOA, *RESEARCH, *RESEARCH funding, *SYSTEMATIC reviews, *DISEASE relapse, *LOGISTIC regression analysis, *EVALUATION research, *PHENOMENOLOGICAL biology, *PROPORTIONAL hazards models, *PHYSIOLOGY, MALARIA transmission

Abstract

Background: Gametocytes are responsible for transmission of malaria from human to mosquito. Artemisinin combination therapy (ACT) reduces post-treatment gametocyte carriage, dependent upon host, parasite and pharmacodynamic factors. The gametocytocidal properties of antimalarial drugs are important for malaria elimination efforts. An individual patient clinical data meta-analysis was undertaken to identify the determinants of gametocyte carriage and the comparative effects of four ACTs: artemether-lumefantrine (AL), artesunate/amodiaquine (AS-AQ), artesunate/mefloquine (AS-MQ), and dihydroartemisinin-piperaquine (DP).Methods: Factors associated with gametocytaemia prior to, and following, ACT treatment were identified in multivariable logistic or Cox regression analysis with random effects. All relevant studies were identified through a systematic review of PubMed. Risk of bias was evaluated based on study design, methodology, and missing data.Results: The systematic review identified 169 published and 9 unpublished studies, 126 of which were shared with the WorldWide Antimalarial Resistance Network (WWARN) and 121 trials including 48,840 patients were included in the analysis. Prevalence of gametocytaemia by microscopy at enrolment was 12.1 % (5887/48,589), and increased with decreasing age, decreasing asexual parasite density and decreasing haemoglobin concentration, and was higher in patients without fever at presentation. After ACT treatment, gametocytaemia appeared in 1.9 % (95 % CI, 1.7-2.1) of patients. The appearance of gametocytaemia was lowest after AS-MQ and AL and significantly higher after DP (adjusted hazard ratio (AHR), 2.03; 95 % CI, 1.24-3.12; P = 0.005 compared to AL) and AS-AQ fixed dose combination (FDC) (AHR, 4.01; 95 % CI, 2.40-6.72; P < 0.001 compared to AL). Among individuals who had gametocytaemia before treatment, gametocytaemia clearance was significantly faster with AS-MQ (AHR, 1.26; 95 % CI, 1.00-1.60; P = 0.054) and slower with DP (AHR, 0.74; 95 % CI, 0.63-0.88; P = 0.001) compared to AL. Both recrudescent (adjusted odds ratio (AOR), 9.05; 95 % CI, 3.74-21.90; P < 0.001) and new (AOR, 3.03; 95 % CI, 1.66-5.54; P < 0.001) infections with asexual-stage parasites were strongly associated with development of gametocytaemia after day 7.Conclusions: AS-MQ and AL are more effective than DP and AS-AQ FDC in preventing gametocytaemia shortly after treatment, suggesting that the non-artemisinin partner drug or the timing of artemisinin dosing are important determinants of post-treatment gametocyte dynamics. [ABSTRACT FROM AUTHOR]

Published

2016

211. Microscopic Plasmodium falciparum Gametocytemia and Infectivity to Mosquitoes in Cambodia.

Author

Lin, Jessica T., Ubalee, Ratawan, Lon, Chanthap, Balasubramanian, Sujata, Kuntawunginn, Worachet, Rahman, Rifat, Saingam^5, Piyaporn, Thay Kheang Heng, Vy, Dav, San, Savoeun, Nuom, Sarath, Burkly, Hana, Chanarat, Nitima, Ponsa, Chanudom, Levitz, Lauren, Parobek, Christian, Char Meng Chuor, Somethy, Sok, Spring, Michele, and Lanteri, Charlotte

Subjects

*PLASMODIUM falciparum, *MOSQUITO vectors, *GERM cells, *ANOPHELES, *MALARIA prevention, *ANIMAL experimentation, *DISEASE vectors, *INSECTS, *MALARIA, *PARASITES, *PROTOZOA, *RESEARCH funding, *PARASITEMIA, *INFECTIOUS disease transmission, MALARIA transmission

Abstract

Although gametocytes are essential for malaria transmission, in Africa many falciparum-infected persons without smear-detectable gametocytes still infect mosquitoes. To see whether the same is true in Southeast Asia, we determined the infectiousness of 119 falciparum-infected Cambodian adults to Anopheles dirus mosquitoes by membrane feeding. Just 5.9% of subjects infected mosquitoes. The 8.4% of patients with smear-detectable gametocytes were >20 times more likely to infect mosquitoes than those without and were the source of 96% of all mosquito infections. In low-transmission settings, targeting transmission-blocking interventions to those with microscopic gametocytemia may have an outsized effect on malaria control and elimination. [ABSTRACT FROM AUTHOR]

Published

2016

212. Reversible host cell remodeling underpins deformability changes in malaria parasite sexual blood stages.

Author

Dearnley, Megan, Trang Chu, Yao Zhang, Looker, Oliver, Changjin Huang, Klonis, Nectarios, Yeoman, Jeff, Kenny, Shannon, Arora, Mohit, Osborne, James M., Chandramohanadas, Rajesh, Sulin Zhang, Dixon, Matthew W. A., and Tilley, Leann

Subjects

*PLASMODIUM falciparum, *GERM cells, *BLOOD cell deformability, *BONE marrow, *ERYTHROCYTE membranes, *CYTOCHALASINS

Abstract

The sexual blood stage of the human malaria parasite Plasmodium falciparum undergoes remarkable biophysical changes as it prepares for transmission to mosquitoes. During maturation, midstage gametocytes show low deformability and sequester in the bone marrow and spleen cords, thus avoiding clearance during passage through splenic sinuses. Mature gametocytes exhibit increased deformability and reappear in the peripheral circulation, allowing uptake by mosquitoes. Here we define the reversible changes in erythrocyte membrane organization that underpin this biomechanical transformation. Atomic force microscopy reveals that the length of the spectrin crossmembers and the size of the skeletal meshwork increase in developing gametocytes, then decrease in mature-stage gametocytes. These changes are accompanied by relocation of actin from the erythrocyte membrane to the Maurer's clefts. Fluorescence recovery after photobleaching reveals reversible changes in the level of coupling between the membrane skeleton and the plasma membrane. Treatment of midstage gametocytes with cytochalasin D decreases the vertical coupling and increases their filterability. A computationally efficient coarse-grained model of the erythrocyte membrane reveals that restructuring and constraining the spectrin meshwork can fully account for the observed changes in deformability. [ABSTRACT FROM AUTHOR]

Published

2016

213. Characterization of a Plasmodium berghei sexual stage antigen PbPH as a new candidate for malaria transmission-blocking vaccine.

Author

Xu Kou, Wenqi Zheng, Feng Du, Fei Liu, Meilian Wang, Qi Fan, Liwang Cui, Enjie Luo, and Yaming Cao

Subjects

*PLASMODIUM berghei, *ANTIGENS, *MALARIA prevention, *BIOINFORMATICS, *WESTERN immunoblotting

Abstract

Background: Transmission-blocking vaccines (TBVs) are a promising strategy for malaria control and elimination. However, candidate TBV antigens are currently limited, highlighting the urgency of identifying new antigens for TBV development. Methods: Using a combination of bioinformatic analysis and functional studies in the rodent malaria model Plasmodium berghei, we identified a conserved Plasmodium protein PbPH (PBANKA_041720) containing a pleckstrin homology (PH) domain. The expression of PbPH was detected by Western blot and indirect immunofluorescence assay (IFA). The function of PbPH was tested by genetic knockout. The TB activity was confirmed by in vitro ookinete conversion assay and mosquito feeding. Results: PbPH was detected in Western blot as highly expressed in sexual stages (gametocytes and ookinetes). IFA revealed localizations of PbPH on the surface of gametes, zygotes, and ookinetes. Deletion of the pbph gene did not affect asexual growth, but significantly reduced the formation of gametocytes, ookinetes, and oocysts, indicating that PbPH protein is required for parasite sexual development. Recombinant PbPH expressed and purified from bacteria elicited strong antibody responses in mice and the antibodies significantly inhibited exflagellation of male gametocytes and formation of ookinetes in a concentration-dependent manner. Mosquito feeding experiments confirmed that mosquitoes fed on mice immunized with PbPH had 13 % reduction in the prevalence of infection and almost 48 % reduction in oocyst density. Conclusions: Pbph is a highly conserved Plasmodium gene and is required for parasite sexual development. PbPH protein is expressed on the surface of gametes and ookinetes. Immunization of mice against the recombinant PbPH protein induced strong antibody responses that effectively reduced the formation of male gametes and ookinetes in vitro and blocked transmission of the parasites to mosquitoes. These results highlight PbPH as a potential TBV candidate that is worth future investigations in human malaria parasites. [ABSTRACT FROM AUTHOR]

Published

2016

214. Plasmodium falciparum Spatial Analysis, Western Kenya Highlands

Author

Otsyula G. Munyekenye, Andrew Githeko, Guofa Zhou, Emmanuel Mushinzimana, Noboru Minakawa, and Guiyun Yan

Subjects

Malaria, highland, prevalence, age group, parasite density, gametocyte, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We carried out a population-based study to determine the unbiased, age-specific Plasmodium falciparum prevalence, asexual and sexual parasite density, and spatial distribution to establish rates of infection at a site in western Kenya. Three cross-sectional surveys were carried out in western Kenya highlands. Blood samples were taken from 1,388 persons from 6 months to 75 years of age. Parasite prevalence and densities in the population decreased with age and distance from valley bottoms. Children from 1 to 4 years of age had the highest parasite prevalence (38.8%–62.8%); in adults, prevalence declined to 2.9%–24.1%. Malaria prevalence declined by an average of 19% from July to December 2002 across age groups. These observations suggest that parasite transmission is intense at this altitude. Asexual parasite density indicated clustering near major vector breeding habitats. Variability in seasonal prevalence indicates transmission instability and susceptibility to epidemics.

Published

2005

215. Effect of seasonal malaria chemoprevention plus azithromycin on Plasmodium falciparum transmission: gametocyte infectivity and mosquito fitness

Author

Daniel Chandramohan, Seydou Bienvenu Ouattara, Franck Adama Yao, Brian Greenwood, Issaka Zongo, Frederic Nikiema, Halidou Tinto, Adrien Marie Gaston Belem, Koudraogo B. Yameogo, Rakiswendé S. Yerbanga, Anna Cohuet, Yves Daniel Compaoré, Jean-Bosco Ouédraogo, Thierry Lefèvre, Institut de Recherche en Sciences de la Santé (IRSS), CNRST, Transmission-Interactions-Adaptations hôtes/vecteurs/pathogènes (MIVEGEC-TRIAD), Evolution des Systèmes Vectoriels (ESV), Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), London School of Hygiene and Tropical Medicine (LSHTM), and Université Polytechnique Nazi Boni Bobo-Dioulasso (UNB)

Subjects

0301 basic medicine, Anopheles gambiae, RC955-962, Physiology, Infectious and parasitic diseases, RC109-216, Azithromycin, Gametocytes, 0302 clinical medicine, [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases, Arctic medicine. Tropical medicine, Malaria, Falciparum, Infectivity, biology, 3. Good health, Drug Combinations, Pyrimethamine, Infectious Diseases, Child, Preschool, Seasonal malaria chemoprevention, Seasons, medicine.drug, Plasmodium falciparum, 030231 tropical medicine, Chemoprevention, Antimalarials, 03 medical and health sciences, Sulfadoxine, parasitic diseases, medicine, Gametocyte, Animals, Humans, Transmission, [SDV.MHEP.PED]Life Sciences [q-bio]/Human health and pathology/Pediatrics, business.industry, Research, Amodiaquine, biology.organism_classification, Blood meal, medicine.disease, Culicidae, 030104 developmental biology, Parasitology, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Genetic Fitness, business, Malaria

Abstract

Background Seasonal malaria chemoprevention (SMC) consists of administration of sulfadoxine-pyrimethamine (SP) + amodiaquine (AQ) at monthly intervals to children during the malaria transmission period. Whether the addition of azithromycin (AZ) to SMC could potentiate the benefit of the intervention was tested through a double-blind, randomized, placebo-controlled trial. The effect of SMC and the addition of AZ, on malaria transmission and on the life history traits of Anopheles gambiae mosquitoes have been investigated. Methods The study included 438 children randomly selected from among participants in the SMC + AZ trial and 198 children from the same area who did not receive chemoprevention. For each participant in the SMC + AZ trial, blood was collected 14 to 21 days post treatment, examined for the presence of malaria sexual and asexual stages and provided as a blood meal to An. gambiae females using a direct membrane-feeding assay. Results The SMC treatment, with or without AZ, significantly reduced the prevalence of asexual Plasmodium falciparum (LRT X22 = 69, P 22 = 54, P 22 = 61, P X22 = 22.8, P 21 = 5.2, P = 0.02), suggesting a significant effect of AZ on gametocyte infectivity. There was a slight negative effect of SPAQ and SPAQ + AZ on mosquito survival compared to mosquitoes fed with blood from control children (LRTX22 = 330, P Conclusion This study demonstrates that SMC may contribute to a reduction in human to mosquito transmission of P. falciparum, and the reduced mosquito longevity observed for females fed on treated blood may increase the benefit of this intervention in control of malaria. The addition of AZ to SPAQ in SMC appeared to enhance the infectivity of gametocytes providing further evidence that this combination is not an appropriate intervention.

Published

2021

216. Infectivity of Symptomatic Malaria Patients to Anopheles farauti Colony Mosquitoes in Papua New Guinea

Author

Lincoln Timinao, Rebecca Vinit, Michelle Katusele, Tamarah Koleala, Elma Nate, Cyrille Czeher, Thomas R. Burkot, Louis Schofield, Ingrid Felger, Ivo Mueller, Moses Laman, Leanne J. Robinson, and Stephan Karl

Subjects

Microbiology (medical), Immunology, Plasmodium vivax, Plasmodium falciparum, Microbiology, Plasmodium, Anopheles farauti, Papua New Guinea, Cellular and Infection Microbiology, Anopheles, parasitic diseases, medicine, Gametocyte, Malaria, Vivax, Parasite hosting, Animals, Humans, Original Research, mosquitoes, Infectivity, Rapid diagnostic test, biology, Transmission (medicine), biology.organism_classification, medicine.disease, Virology, QR1-502, Malaria, Infectious Diseases, direct membrane feeding assay

Abstract

Despite being a weak point in their life cycle, transmission of Plasmodium parasites from humans to mosquitoes is an understudied field of research. Direct membrane feeding assays (DMFA) are an important tool, allowing detailed mechanistic malaria transmission studies from humans to mosquitoes. Especially for Plasmodium vivax, which cannot be cultured long-term under laboratory conditions, implementation of DMFAs requires proximity to P. vivax endemic areas. In the present study, we investigated the infectivity of symptomatic Plasmodium infections to Anopheles farauti colony mosquitoes in Papua New Guinea (PNG), a country with one of the highest rates of Plasmodium vivax in the world. A total of 182 DMFAs were performed with venous blood collected from symptomatic malaria patients positive by rapid diagnostic test (RDT). DMFAs resulted in mosquito infection in 20.9% (38/182) of cases. The parasite species in the blood feeds were determined retrospectively by expert light microscopy and quantitative real-time qPCR. Based on light microscopy, 9.2% of P. falciparum and 42% of P. vivax human infections resulted in mosquito infections. Infections containing gametocytes detected by microscopy led to mosquito infections in 58.8% of P. vivax and 8.7% of P. falciparum infections. Based on qPCR, 10% of P. falciparum and 43.6% of P. vivax lead to a successful mosquito infection. Venous blood samples from symptomatic P. vivax patients were more infectious to An. farauti mosquitoes in DMFAs compared to P. falciparum infected patients. The capacity to perform DMFAs in a high-burden P. vivax setting creates a unique opportunity to address critical gaps in our understanding of P. vivax human-tomosquito transmission.

Published

2021

217. Revisiting the effect of pharmaceuticals on transmission stage formation in the malaria parasite Plasmodium falciparum

Author

B. T. Thommen, Till S. Voss, Nicolas M. B. Brancucci, Eva Hitz, T. Buser, and Armin Passecker

Subjects

Drug, Sexual differentiation, Transmission (medicine), media_common.quotation_subject, Plasmodium falciparum, Nutrient sensing, Biology, biology.organism_classification, medicine.disease, Immunology, Gametocyte, medicine, Parasite hosting, Malaria, media_common

Abstract

Malaria parasites rely on specialized stages, called gametocytes, to ensure human-to-human transmission. The formation of these sexual precursor cells is initiated by commitment of blood stage parasites to the sexual differentiation pathway. Plasmodium falciparum, the most virulent of six parasite species infecting humans, employs nutrient sensing to control the rate at which sexual commitment is initiated, and the presence of stress-inducing factors, including antimalarial drugs, has been linked to increased gametocyte production in vitro and in vivo. These observations suggest that therapeutic interventions may promote gametocytogenesis and malaria transmission. Here, we engineered a P. falciparum reporter line to quantify sexual commitment rates after exposure to antimalarials and other pharmaceuticals commonly prescribed in malaria-endemic regions. Our data reveal that some of the tested drugs indeed have the capacity to elevate sexual commitment rates in vitro. Importantly, however, these effects are only observed at drug concentrations that inhibit parasite survival and only rarely result in a net increase of gametocyte production. Using a drug-resistant parasite reporter line, we further show that the gametocytogenesis-promoting effect of drugs is linked to general stress responses rather than to compound-specific activities. Altogether, we provide conclusive evidence for the absence of mechanistic links between the regulation of sexual commitment and the activity of commonly used pharmaceuticals in vitro. Our data hence contradict scenarios in which therapeutic interventions would promote the spread of drug-resistant parasites or malaria transmission in general.

Published

2021

218. A cohort study on the duration of Plasmodium falciparum infections during the dry season in The Gambia

Author

Teun Bousema, Kjerstin Lanke, Antoine Claessens, David J. Conway, Lynn Grignard, Sainabou Drammeh, Umberto D'Alessandro, Sukai Ceesay, Fatou Jaiteh, Katharine A. Collins, Will Stone, and Marc-Antoine Guery

Subjects

Wet season, Veterinary medicine, biology, Transmission (medicine), Plasmodium falciparum, biology.organism_classification, medicine.disease, Asymptomatic, Dry season, Cohort, Gametocyte, medicine, medicine.symptom, Malaria

Abstract

BackgroundIn areas where Plasmodium falciparum malaria is highly seasonal, a dry season reservoir of blood-stage infection is essential for initiating transmission during the following wet season, bridging transmission seasons several months apart. Understanding infections during the dry season could thus inform approaches for malaria control.MethodsIn The Gambia, a cohort of 42 individuals with qPCR positive P. falciparum infections at the end of the transmission season (December) were followed monthly until the end of the dry season (May) to evaluate the duration of detectable infections. The influence of human host (age, sex, haemoglobin concentration and genotype, and P. falciparum-specific antibodies), and parasitological (parasite density, gametocyte density and genotypic multiplicity of infection) factors was investigated.ResultsA large proportion of individuals infected at the end of the wet season had detectable infections until the end of the dry season (40.0%; 16/40), with the majority of these infections also harbouring gametocytes (81.3%; 13/16). 22 infections were classified as persistent (detectable for at least 3 months), 17 were classified as short-lived (undetectable within 2 months), and 3 were treated (due to symptoms). At the start of the dry season, the majority of persistent infections (82%; 18/22) had parasite densities >10 p/µL compared to only 5.9% (1/17) of short-lived infections. Persistent infections (59%; 13/22) were also more likely to be multi-clonal than short-lived infections (5.9%; 1/17), they were most common in 5 to 15 year old children (63%; 12/19), and were associated with individuals having higher levels of P. falciparum-specific antibodies (p = 0.058).ConclusionsAsymptomatic persistent dry season infections in The Gambia were multiclonal with higher parasite densities at the beginning of the dry season, mostly occurring in school age children and adults with higher P. falciparum-specific antibodies. Screening and treating asymptomatic, malaria-infected individuals during the dry season may reduce the human reservoir of malaria responsible initiating transmission in the wet-season.

Published

2021

219. Characterization of Apicomplexan Amino Acid Transporters (ApiATs) in the Malaria Parasite Plasmodium falciparum

Author

Wichers, Jan Stephan, van Gelder, Carolina, Fuchs, Gwendolin, Ruge, Julia Mareike, Pietsch, Emma, Ferreira, Josie L., Safavi, Soraya, von Thien, Heidrun, Burda, Paul-Christian, Mesén-Ramirez, Paolo, Spielmann, Tobias, Strauss, Jan, Gilberger, Tim-Wolf, Bachmann, Anna, and Phillips, Margaret

Subjects

Erythrocytes, Amino Acid Transport Systems, parasitology, Green Fluorescent Proteins, Plasmodium falciparum, Medizin, Protozoan Proteins, malaria, Plasmodium, Microbiology, Host-Parasite Interactions, Green fluorescent protein, 03 medical and health sciences, parasitic diseases, Fluorescence Resonance Energy Transfer, Gametocyte, Humans, Parasite hosting, Malaria, Falciparum, Molecular Biology, Gene, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, 030306 microbiology, Cell Membrane, biology.organism_classification, QR1-502, 3. Good health, Cell biology, Amino acid, chemistry, Biologie, Intracellular, Research Article

Abstract

During the symptomatic human blood phase, malaria parasites replicate within red blood cells. Parasite proliferation relies on the uptake of nutrients, such as amino acids, from the host cell and blood plasma, requiring transport across multiple membranes. Amino acids are delivered to the parasite through the parasite-surrounding vacuolar compartment by specialized nutrient-permeable channels of the erythrocyte membrane and the parasitophorous vacuole membrane (PVM). However, further transport of amino acids across the parasite plasma membrane (PPM) is currently not well characterized. In this study, we focused on a family of Apicomplexan amino acid transporters (ApiATs) that comprises five members in Plasmodium falciparum. First, we localized four of the P. falciparum ApiATs (PfApiATs) at the PPM using endogenous green fluorescent protein (GFP) tagging. Next, we applied reverse genetic approaches to probe into their essentiality during asexual replication and gametocytogenesis. Upon inducible knockdown and targeted gene disruption, a reduced asexual parasite proliferation was detected for PfApiAT2 and PfApiAT4. Functional inactivation of individual PfApiATs targeted in this study had no effect on gametocyte development. Our data suggest that individual PfApiATs are partially redundant during asexual in vitro proliferation and fully redundant during gametocytogenesis of P. falciparum parasites. IMPORTANCE Malaria parasites live and multiply inside cells. To facilitate their extremely fast intracellular proliferation, they hijack and transform their host cells. This also requires the active uptake of nutrients, such as amino acids, from the host cell and the surrounding environment through various membranes that are the consequence of the parasite’s intracellular lifestyle. In this paper, we focus on a family of putative amino acid transporters termed ApiAT. We show expression and localization of four transporters in the parasite plasma membrane of Plasmodium falciparum-infected erythrocytes that represent one interface of the pathogen to its host cell. We probed into the impact of functional inactivation of individual transporters on parasite growth in asexual and sexual blood stages of P. falciparum and reveal that only two of them show a modest but significant reduction in parasite proliferation but no impact on gametocytogenesis, pointing toward dispensability within this transporter family. CA extern

Published

2021

220. Number and proportion ofP. falciparumgametocytes vary from acute infection to chronic parasite carriage despite unaltered sexual commitment rate

Author

Usama Dabbas, Hamidou Cisse, Peter D. Crompton, Silvia Portugal, Martin Kampmann, Teun Bousema, Frederik Graw, Safiatou Doumbo, Myriam D. Jeninga, Michael Gabel, Nathalia F Lima, Shanping Li, Michaela Petter, Boubacar Traore, Richard Thomson-Luque, Didier Doumtabe, Hannah van Dijk, Kassoum Kayentao, and Aissata Ongoiba

Subjects

Wet season, Zoology, Plasmodium falciparum, Biology, medicine.disease, biology.organism_classification, Asymptomatic, law.invention, Transmission (mechanics), law, Dry season, medicine, Gametocyte, Parasite hosting, medicine.symptom, Malaria

Abstract

IntroductionIn areas of seasonal malaria, resuming transmission every wet season relies on persistent asexual parasites during dry season that maintain the ability to produce gametocytes until the mosquito population resurges following the start of annual rains. Although human asymptomaticP. falciparumreservoirs in the dry season are widely recognized, the longitudinal dynamics of parasite sexual commitment and gametocytogenesis remain unclear.MethodsWe compared the expression of genes related with sexual commitment and gametocytogenesis ofP. falciparum, the density and proportion ofP. falciparumgametocytes, and the blood concentrations of phospholipids potentially involved in gametocytogenesis from asymptomatic subjects at the end of the dry season versus subjects with symptomatic malaria in the wet season. Furthermore, we verified whether number and proportion of gametocytes in asymptomatic vs clinical cases had similar trends in areas of seasonal and perennial transmission settings. Finally, we adapted a within-host mathematical model considering asexual parasites, sexually committed parasites, and gametocytes to infer the dynamics of gametocyte number and proportion asP. falciparuminfections progress.ResultsWe found that transcripts of genes specific of late-stage gametocytes were predominantly upregulated in asymptomatic infections at the end of the dry season, which also showed increased proportions of circulating mature gametocytes compared to clinical malaria cases. On the other hand, blood densities of gametocytes and asexual parasites were lower in chronic asymptomatic individuals compared to clinical malaria. In addition, the levels of parasite transcripts involved in sexual commitment were unaltered throughout the year.DiscussionOur experimental data in combination with mathematical modelling support a scenario in which gametocyte density and proportion diverge as infections progress from recent transmission to chronic carriage, without significant alterations in the rate of sexual commitment over time.

Published

2021

221. Analysis of sex-specific lipid metabolism in P. falciparum gametocytes points to importance of sphingomyelin for gametocytogenesis

Author

Simon H. J. Brown, Daniela Cihalova, Phuong N. Tran, Melanie C. Ridgway, Todd W. Mitchell, and Alexander G. Maier

Subjects

biology, Plasmodium falciparum, Lipid metabolism, medicine.disease, biology.organism_classification, Sexual reproduction, Cell biology, chemistry.chemical_compound, chemistry, Sphingomyelin synthase, Cholesteryl ester, Gametocyte, medicine, biology.protein, Sphingomyelin, Malaria

Abstract

Male and female Plasmodium falciparum gametocytes are the parasite lifecycle stage responsible for transmission of malaria from the human host to mosquito vector. Not only are gametocytes able to survive in radically different host environments, but they are also precursors for male and female gametes that reproduce sexually soon after ingestion by the mosquito. Here we investigate the sex-specific lipid metabolism of gametocytes within their host red blood cell and poised for ingestion by the mosquito vector and subsequent sexual reproduction.Comparison of the male and female lipidome identifies cholesteryl esters and dihydrosphingomyelin enrichment in female gametocytes. Chemical inhibition of each of these lipid types in mature gametocytes suggests dihydrosphingomyelin synthesis but not cholesteryl ester synthesis is important for sex-specific gametocyte viability. Genetic disruption of each of the two sphingomyelin synthase gene points towards sphingomyelin synthesis contributing to gametocytogenesis.This study shows that gametocytes are not only distinct from asexual stages, but that the lipid composition is also vastly different between male and female gametocytes, reflecting the different cellular roles these stages play. Together our results highlight the sex-specific nature of gametocyte lipid metabolism that has the potential to be targeted to block malaria transmission.

Published

2021

222. Studies of Potency and Efficacy of an Optimized Artemisinin-Quinoline Hybrid against Multiple Stages of the Plasmodium Life Cycle

Author

Sarah D'Alessandro, Lars Herrmann, Nicoletta Basilico, Helenita C. Quadros, Aysun Çapcı, Diana Fontinha, Raquel Azevedo, Diogo Rodrigo Magalhães Moreira, Svetlana B. Tsogoeva, Miguel Prudêncio, and Wilmer Villarreal

Subjects

malaria, Pharmaceutical Science, Plasmodium, chemistry.chemical_compound, Pharmacy and materia medica, In vivo, Chloroquine, hemozoin, Drug Discovery, parasitic diseases, Gametocyte, medicine, Potency, Artemisinin, heterobivalent, Heme, hybrids, Hemozoin, RS1-441, Biochemistry, chemistry, artemisinin, ddc:540, Molecular Medicine, Medicine, Hemin, medicine.drug

Abstract

A recently developed artemisinin-quinoline hybrid, named 163A, has been shown to display potent activity against the asexual blood stage of Plasmodium, the malaria parasite. In this study, we determined its in vitro cytotoxicity to mammalian cells, its potency to suppress P. berghei hepatic infection and to decrease the viability of P. falciparum gametocytes, in addition to determining whether the drug exhibits efficacy of a P. berghei infection in mice. This hybrid compound has a low level of cytotoxicity to mammalian cells and, conversely, a high level of selectivity. It is potent in the prevention of hepatic stage development as well as in killing gametocytes, denoting a potential blockage of malaria transmission. The hybrid presents a potent inhibitory activity for beta-hematin crystal formation, in which subsequent assays revealed that its endoperoxide component undergoes bioactivation by reductive reaction with ferrous heme towards the formation of heme-drug adducts, in parallel, the 7-chloroquinoline component has binding affinity for ferric hemin. Both structural components of the hybrid co-operate to enhance the inhibition of beta-hematin, and this bitopic ligand property is essential for arresting the growth of asexual blood parasites. We demonstrated the in vivo efficacy of the hybrid as an erythrocytic schizonticide agent in comparison to a chloroquine/artemisinin combination therapy. Collectively, the findings suggest that the bitopic property of the hybrid is highly operative on heme detoxification suppression, and this provides compelling evidence for explaining the action of the hybrid on the asexual blood stage. For sporozoite and gametocyte stages, the hybrid conserves the potency typically observed for endoperoxide drugs, and this is possibly achieved due to the redox chemistry of endoperoxide components with ferrous heme.

Published

2021

223. The Rare, the Best: Spread of Antimalarial-Resistant Plasmodium falciparum Parasites by Anopheles Mosquito Vectors

Author

Xavier Iriart, Antoine Berry, Parfait Awono-Ambene, Benjamin Roche, Isabelle Morlais, Sandrine E. Nsango, Didier Concordet, Luc Abate, Sandie Menard, Majoline Tchioffo Tsapi, Institut Toulousain des Maladies Infectieuses et Inflammatoires (Infinity), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Université de Douala, Transmission-Interactions-Adaptations hôtes/vecteurs/pathogènes (MIVEGEC-TRIAD), Evolution des Systèmes Vectoriels (ESV), Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), Innovations Thérapeutiques et Résistances (InTheRes), Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), Organisation de Coordination pour la lutte contre les Endémies en Afrique Centrale (OCEAC), Unité de modélisation mathématique et informatique des systèmes complexes [Bondy] (UMMISCO), Université de Yaoundé I-Institut de la francophonie pour l'informatique-Université Cheikh Anta Diop [Dakar, Sénégal] (UCAD)-Université Gaston Bergé (Saint-Louis, Sénégal)-Université Cadi Ayyad [Marrakech] (UCA)-Sorbonne Université (SU)-Institut de Recherche pour le Développement (IRD [France-Nord]), Universidad Nacional Autónoma de México = National Autonomous University of Mexico (UNAM), Institut de Recherche pour le Developpemente - Institut de Medecine et d'Epidemiologie Appliquee MEA-AO-07French National Research Agency (ANR) European Commission ANR-11-BSV7-009-01MEA-AO-07, Baures, Simone, Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Génétique et évolution des maladies infectieuses (GEMI), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Génétique et évolution des maladies infectieuses (GEMI), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

Microbiology (medical), Physiology, [SDV]Life Sciences [q-bio], Population, Plasmodium falciparum, malaria, mosquito, Microbiology, resistance, antimalarials, Chloroquine, Genotype, parasitic diseases, Anopheles, Genetics, medicine, Gametocyte, education, [SDV.MP] Life Sciences [q-bio]/Microbiology and Parasitology, education.field_of_study, General Immunology and Microbiology, Ecology, biology, transmission, Cell Biology, genetic diversity, biology.organism_classification, medicine.disease, Virology, QR1-502, [SDV] Life Sciences [q-bio], Infectious Diseases, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Vector (epidemiology), Malaria, medicine.drug

Abstract

International audience; The emergence of resistance to antimalarials has prompted the steady switch to novel therapies for decades. Withdrawal of antimalarials, such as chloroquine in sub-Saharan Africa in the late 1990s, led to rapid declines in the prevalence of resistance markers after a few years, raising the possibility of reintroducing them for malaria treatment. Here, we provide evidence that the mosquito vector plays a crucial role in maintaining parasite genetic diversity. We followed the transmission dynamics of Plasmodium falciparum parasites through its vector in natural infections from gametocytes contained in the blood of asymptomatic volunteers until sporozoites subsequently developed in the mosquito salivary glands. We did not find any selection of the mutant or wild-type pfcrt 76 allele during development in the Anopheles mosquito vector. However, microsatellite genotyping indicated that minority genotypes were favored during transmission through the mosquito. The analysis of changes in the proportions of mutant and wild-type pfcrt 76 alleles showed that, regardless of the genotype, the less-represented allele in the gametocyte population was more abundant in mosquito salivary glands, indicating a selective advantage of the minority allele in the vector. Selection of minority genotypes in the vector would explain the persistence of drug-resistant alleles in the absence of drug pressure in areas with high malaria endemicity and high genetic diversity. Our results may have important epidemiological implications, as they predict the rapid re-emergence and spread of resistant genotypes if antimalarials that had previously selected resistant parasites are reintroduced for malaria prevention or treatment.IMPORTANCE Drug selection pressure in malaria patients is the cause of the emergence of resistant parasites. Resistance imposes a fitness cost for parasites in untreated infections, so withdrawal of the drug leads to the return of susceptible parasites. Little is known about the role of the malaria vector in this phenomenon. In an experimental study conducted in Cameroon, an area of high malaria transmission, we showed that the vector did not favor the parasites based on sensitivity or resistance criteria, but it did favor the selection of minority clones. This finding shows that the vector increases the diversity of plasmodial populations and could play an important role in falciparum malaria epidemiology by maintaining resistant clones despite the absence of therapeutic pressure..

Published

2021

224. Gametocyte

Author

Mehlhorn, Heinz, editor

Published

2016

225. Changes in Plasmodium falciparum gametocytaemia in children with chloroquine-sensitive asexual infections

Author

Sowunmi A. and Fateye B.A.

Subjects

P. falciparum, gametocyte, sex ratio, chloroquine, children, Nigeria, Infectious and parasitic diseases, RC109-216

Abstract

A non-compartmental pharmacokinetic model was used to describe the changes in gametocytaemia in nine children with chloroquine-sensitive Plasmodium falciparum malaria in whom asexual parasitaemia cleared within 72 h of chloroquine treatment. Peak gametocytaemia was 74 ± 19.9 (se), range 24-198, géométrie mean 58 sf (sexual forms)/ul. Time to peak gametocytaemia was 43.2 ± 14.4, range 0-120 h. Following peak gametocytaemia, gametocytes persisted in blood for a period of 168-504 h. The décline from peak gametocytaemia was exponential with a half-life of gametocytaemia of 43.2 ± 20.4, range 1 3.1-206 h. The mean pre-treatment sex ratio was male-biased and remained so til! complete elimination of gametocytaemia. Peak microgametocytaemia, area under the curve of microgametocytaemia versus time, and the half-life of microgametocytaemia were significantly higher than those of macrogametocytaemia. The volume of blood completely cleared of macrogametocytaemia per unit time was significantly higher than that of microgametocytaemia. Macrogametocytes are cleared from the circulation faster than microgametocytes but chloroquine treatment of chloroquine-sensitive infections has little or no significant effect on gametocyte sex ratios in this group of children.

Published

2003

226. Comparison of infectivity of Plasmodium vivax to wild-caught and laboratory-adapted (colonized) Anopheles arabiensis mosquitoes in Ethiopia

Author

Kjerstin Lanke, Chris Drakeley, Endalamaw Gadisa, Hassen Mamo, Teun Bousema, Fitsum G. Tadesse, Delenasaw Yewhalaw, Soriya Kedir, Abrham Gashaw, Beyene Petros, Girma Shumie, Sinknesh Wolde Behaksra, Endashaw Esayas, Elifaged Hailemeskel, Temesgen Tafesse, Temesgen Ashine, John S. Bradley, and Wakweya Chali

Subjects

Veterinary medicine, 030231 tropical medicine, Plasmodium vivax, Mosquito Vectors, Plasmodium, Host-Parasite Interactions, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, 0302 clinical medicine, Anopheles, parasitic diseases, Malaria, Vivax, medicine, Gametocyte, Animals, Humans, lcsh:RC109-216, 030212 general & internal medicine, Infectivity, Wild mosquito, Larva, biology, Transmission (medicine), Research, Oocysts, Feeding Behavior, Membrane-feeding, biology.organism_classification, medicine.disease, Malaria, Anopheles arabiensis, lnfectious Diseases and Global Health Radboud Institute for Health Sciences [Radboudumc 4], Infectious Diseases, Parasitology, Female, Ethiopia, Relative permissiveness, Laboratories

Abstract

Background Mosquito-feeding assays that assess transmission of Plasmodium from man-to-mosquito typically use laboratory mosquito colonies. The microbiome and genetic background of local mosquitoes may be different and influence Plasmodium transmission efficiency. In order to interpret transmission studies to the local epidemiology, it is therefore crucial to understand the relationship between infectivity in laboratory-adapted and local mosquitoes. Methods We assessed infectivity of Plasmodium vivax-infected patients from Adama, Ethiopia, using laboratory-adapted (colony) and wild-caught (wild) mosquitoes raised from larval collections in paired feeding experiments. Feeding assays used 4–6 day-old female Anopheles arabiensis mosquitoes after starvation for 12 h (colony) and 18 h (wild). Oocyst development was assessed microscopically 7 days post-feeding. Wild mosquitoes were identified morphologically and confirmed by genotyping. Asexual parasites and gametocytes were quantified in donor blood by microscopy. Results In 36 paired experiments (25 P. vivax infections and 11 co-infections with P. falciparum), feeding efficiency was higher in colony (median: 62.5%; interquartile range, IQR: 47.0–79.0%) compared to wild mosquitoes (median: 27.8%; IQR: 17.0–38.0%; Z = 5.02; P < 0.001). Plasmodium vivax from infectious individuals (51.6%, 16/31) infected a median of 55.0% (IQR: 6.7–85.7%; range: 5.5–96.7%; n = 14) of the colony and 52.7% (IQR: 20.0–80.0%; range: 3.2–95.0%; n = 14) of the wild mosquitoes. A strong association (ρ(16) = 0.819; P < 0.001) was observed between the proportion of infected wild and colony mosquitoes. A positive association was detected between microscopically detected gametocytes and the proportion of infected colony (ρ(31) = 0.452; P = 0.011) and wild (ρ(31) = 0.386; P = 0.032) mosquitoes. Conclusions Infectivity assessments with colony and wild mosquitoes yielded similar infection results. This finding supports the use of colony mosquitoes for assessments of the infectious reservoir for malaria in this setting whilst acknowledging the importance of mosquito factors influencing sporogonic development of Plasmodium parasites.

Published

2020

227. Étude de l’efficacité thérapeutique et de la tolérance de l’artéméther–luméfantrine et de l’artésunate–amodiaquine au Niger

Author

H Hassan Hamidou, J Hadiza, I Ibrahima, A Mahamadou, Daou Maman, I Yacouba, S Boureima, I Amadou Tidjani, H Kadri Harouna, I Maman Laminou, and Eric Adehossi

Subjects

medicine.medical_specialty, Artemether/lumefantrine, biology, business.industry, Artesunate/amodiaquine, Plasmodium falciparum, biology.organism_classification, Uncomplicated malaria, Pathology and Forensic Medicine, Internal medicine, parasitic diseases, medicine, Gametocyte, Clinical endpoint, In patient, business, Adverse effect, medicine.drug

Abstract

This study aims to evaluate the therapeutic efficacy and tolerance of two ACTs widely used for the treatment of uncomplicated malaria due to Plasmodium falciparum in Niger. The study was conducted from September to November 2017, at the Integrated Health Centers of Dogondoutchi and Birni N'Gaoure, in patients aged from 6 months to 15 years, with uncomplicated malaria due to Plasmodium falciparum. They were treated with either Artemether-Lumefantrine (AL) or Artesunate-Amodiaquine (ASAQ). The primary endpoint was the appropriate clinical and parasitological response (RCPA) to D28, after PCR correction. The secondary criteria were the clearing time of fever, parasites, and gametocytes and then the occurrence of adverse events. A total of 459 patients were examined, of whom 312 patients met the inclusion criteria for therapeutic efficacy evaluation. We have followed 299 patients up to J28 including 146 in the AL arm and 153 in the ASAQ arm. After PCR correction at J28, RCPA were 95.8% and 96% (P = 0.7185) for arms AL and ASAQ, respectively, compared to 93.1% and 94.1% respectively before PCR correction (P = 0.7892). The number of patients on AL and ASAQ treatment who developed an adverse reaction were 6 (7.6%) and 23 (28%) respectively. AL and ASAQ associations are effective and well tolerated. No serious adverse event was noted. However, their monitoring must continue to detect possible resistance.

Published

2020

228. Stage-specific Plasmodium falciparum immune responses in afebrile adults and children living in the Greater Accra Region of Ghana

Author

Linda E. Amoah, Hamza B. Abagna, Michael Theisen, Ben Gyan, Aminata C. Lo, Kwadwo Akyea-Mensah, Babacar Faye, and Festus K. Acquah

Subjects

Adult, lcsh:Arctic medicine. Tropical medicine, Adolescent, lcsh:RC955-962, Rain, Plasmodium falciparum, Gametocyte, Antibodies, Protozoan, Physiology, Enzyme-Linked Immunosorbent Assay, Real-Time Polymerase Chain Reaction, Ghana, lcsh:Infectious and parasitic diseases, Young Adult, Antigen, parasitic diseases, Afebrile, Prevalence, medicine, Humans, Parasite hosting, Transmission, lcsh:RC109-216, Malaria, Falciparum, Child, Asymptomatic Infections, Antibody, Aged, Whole blood, biology, Research, Age Factors, Middle Aged, biology.organism_classification, medicine.disease, Infectious Diseases, Immunoglobulin M, Parasitology, Immunoglobulin G, Carrier State, Linear Models, biology.protein, Seasons, RNA, Protozoan, Malaria

Abstract

Background Asymptomatic carriage of Plasmodium falciparum is widespread in adults and children living in malaria-endemic countries. This study identified the prevalence of malaria parasites and the corresponding levels of naturally acquired anti-parasite antibody levels in afebrile adults living in two communities in the Greater Accra Region of Ghana. Methods Two cross-sectional studies conducted in January and February 2016 and repeated in July and August 2016 recruited subjects aged between 6 and 75 years from high parasite prevalence (Obom) and low parasite prevalence (Asutsuare) communities. Whole blood (5 ml) was collected from each volunteer, plasma was aliquoted and frozen until needed. An aliquot (10 µl) of the blood was used to prepare thick and thin blood smears, 100 µl was preserved in Trizol and the rest was separated into plasma and blood cells and each stored at − 20 °C until needed. Anti-MSP3 and Pfs230 antibody levels were measured using ELISA. Results Asexual parasite and gametocyte prevalence were higher in Obom than Asutsuare. Antibody (IgG, IgG1, IgG3, IgM) responses against the asexual parasite antigen MSP3 and gametocyte antigen Pfs230 were higher in Obom during the course of the study except for IgM responses against Pfs230, which was higher in Asutsuare than in Obom during the rainy season. Antibody responses in Asutsuare were more significantly associated with age than the responses measured in Obom. Conclusion The pattern of antibody responses measured in people living in the high and low malaria transmission setting was similar. All antibody responses measured against the asexual antigen MSP3 increased, however, IgG and IgG1 responses against gametocyte antigen Pfs230 decreased in moving from the dry to the peak season in both sites. Whilst asexual and gametocyte prevalence was similar between the seasons in the low transmission setting, in the high transmission setting asexual parasite prevalence increased but gametocyte prevalence decreased in the rainy season relative to the dry season.

Published

2020

229. Testing possible causes of gametocyte reduction in temporally out-of-synch malaria infections

Author

Gregory F. Albery, Kimberley F. Prior, Sarah E. Reece, Aidan J. O’Donnell, Petra Schneider, and Mary L. Westwood

Subjects

Male, 0301 basic medicine, Plasmodium, Erythrocytes, Time Factors, TNF-a, Phenotypic plasticity, phenotypic plasticity, Gametogenesis, Plasmodium chabaudi, Mice, Random Allocation, 0302 clinical medicine, innate immunity, Conversion rate, Innate immunity, biology, Reverse Transcriptase Polymerase Chain Reaction, Transmission (medicine), Flow Cytometry, conversion rate, Circadian Rhythm, 3. Good health, Infectious Diseases, Reproductive effort, Female, chronoimmunology, inflammatory cytokine, lcsh:Arctic medicine. Tropical medicine, Inflammatory cytokine, lcsh:RC955-962, malaria, Real-Time Polymerase Chain Reaction, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Immune system, intraerythrocytic development cycle, reporductive effort, Chronoimmunology, medicine, Gametocyte, Animals, lcsh:RC109-216, Circadian rhythm, Intraerythrocytic development cycle, Innate immune system, Merozoites, Tumor Necrosis Factor-alpha, Research, medicine.disease, biology.organism_classification, Mice, Mutant Strains, Malaria, Mice, Inbred C57BL, 030104 developmental biology, plasmodium, TNF-α, Immunology, Linear Models, Parasitology, 030217 neurology & neurosurgery

Abstract

Background The intraerythrocytic development cycle (IDC) of the rodent malaria Plasmodium chabaudi is coordinated with host circadian rhythms. When this coordination is disrupted, parasites suffer a 50% reduction in both asexual stages and sexual stage gametocytes over the acute phase of infection. Reduced gametocyte density may not simply follow from a loss of asexuals because investment into gametocytes (“conversion rate”) is a plastic trait; furthermore, the densities of both asexuals and gametocytes are highly dynamic during infection. Hence, the reasons for the reduction of gametocytes in infections that are out-of-synch with host circadian rhythms remain unclear. Here, two explanations are tested: first, whether out-of-synch parasites reduce their conversion rate to prioritize asexual replication via reproductive restraint; second, whether out-of-synch gametocytes experience elevated clearance by the host’s circadian immune responses. Methods First, conversion rate data were analysed from a previous experiment comparing infections of P. chabaudi that were in-synch or 12 h out-of-synch with host circadian rhythms. Second, three new experiments examined whether the inflammatory cytokine TNF varies in its gametocytocidal efficacy according to host time-of-day and gametocyte age. Results There was no evidence that parasites reduce conversion or that their gametocytes become more vulnerable to TNF when out-of-synch with host circadian rhythms. Conclusions The factors causing the reduction of gametocytes in out-of-synch infections remain mysterious. Candidates for future investigation include alternative rhythmic factors involved in innate immune responses and the rhythmicity in essential resources required for gametocyte development. Explaining why it matters for gametocytes to be synchronized to host circadian rhythms might suggest novel approaches to blocking transmission.

Published

2020

230. Fever in the returning traveller : dual infection with SARS-CoV-2 and Plasmodium falciparum malaria

Author

Arifa Parker, Zivanai C. Chapanduka, E Nell, A. Mowlana, KS Kalombo, T Lovelock, M S Moolla, M. A. Parker, S. Karamchand, and L Murphy

Subjects

0301 basic medicine, Pediatrics, medicine.medical_specialty, Tuberculosis, biology, Coronavirus disease 2019 (COVID-19), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Plasmodium falciparum, biology.organism_classification, medicine.disease, Pneumocystis pneumonia, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, parasitic diseases, Pandemic, medicine, Gametocyte, business, Malaria

Abstract

Background: More than 90% of the global 400 000 annual malaria deaths occur in Africa. The current SARS-CoV-2 pandemic has resulted in more than 830 000 deaths in its first 10 months. Case presentation: This case describes a patient who had travelled from Mozambique to Cape Town, presented with a mild febrile illness, and was diagnosed with both COVID-19 and uncomplicated Plasmodium falciparum malaria infection. She responded well to malaria treatment and had an uneventful COVID-19 admission. Her blood smear showed a low malaria parasitaemia and a relatively high gametocyte load. Conclusion: We postulate that her clinical course and abnormal smear could well be due to reciprocal disease-modifying effects of the infections. The presenting symptoms of COVID-19 may mimic endemic infectious diseases including malaria, tuberculosis, pneumocystis pneumonia and influenza thus there is a need for clinical vigilance to identify and treat such co-infections. The full article is available at https://doi.org/10.36303/JMLSTSA.2020.2.2.57

Published

2020

231. Multistage antiplasmodial activity of hydroxyethylamine compounds, in vitro and in vivo evaluations

Author

Vladimir Potemkin, Agam P. Singh, Snigdha Singh, Poonam, Raman Mathur, Prateek Pathak, Meenakshi Bansal, Brijesh Rathi, Maria Grishina, Jyoti Prakash Singh, Prakasha Kempaiah, Mohammad Kashif, Mohd Shahbaaz, Vinoth Rajendran, Yash Gupta, and Neha Sharma

Subjects

0303 health sciences, education.field_of_study, Chemistry, General Chemical Engineering, Population, General Chemistry, Pharmacology, medicine.disease, 01 natural sciences, In vitro, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Plasmepsin II, In vivo, parasitic diseases, medicine, Gametocyte, education, Cytotoxicity, IC50, Malaria, 030304 developmental biology

Abstract

Malaria, a global threat to the human population, remains a challenge partly due to the fast-growing drug-resistant strains of Plasmodium species. New therapeutics acting against the pathogenic asexual and sexual stages, including liver-stage malarial infection, have now attained more attention in achieving malaria eradication efforts. In this paper, two previously identified potent antiplasmodial hydroxyethylamine (HEA) compounds were investigated for their activity against the malaria parasite's multiple life stages. The compounds exhibited notable activity against the artemisinin-resistant strain of P. falciparum blood-stage culture with 50% inhibitory concentrations (IC50) in the low micromolar range. The compounds' cytotoxicity on HEK293, HepG2 and Huh-7 cells exhibited selective killing activity with IC50 values > 170 μM. The in vivo efficacy was studied in mice infected with P. berghei NK65, which showed a significant reduction in the blood parasite load. Notably, the compounds were active against liver-stage infection, mainly compound 1 with an IC50 value of 1.89 μM. Mice infected with P. berghei sporozoites treated with compound 1 at 50 mg kg−1 dose had markedly reduced liver stage infection. Moreover, both compounds prevented ookinete maturation and affected the developmental progression of gametocytes. Further, systematic in silico studies suggested both the compounds have a high affinity towards plasmepsin II with favorable pharmacological properties. Overall, the findings demonstrated that HEA and piperidine possessing compounds have immense potential in treating malarial infection by acting as multistage inhibitors.

Published

2020

232. Detection of avian haemosporidia from captive musophagid birds at a zoological garden in Japan

Author

Yukita Sato, Masayoshi Kakogawa, Ayana Ono, Mizue Inumaru, and Mitsuhiko Asakawa

Subjects

zoos, Male, Zoological garden, Leucocytozoon, Crinifer piscator, 040301 veterinary sciences, Lineage (evolution), Zoology, Wildlife Science, zoological garden, DNA, Mitochondrial, Polymerase Chain Reaction, 0403 veterinary science, Birds, 03 medical and health sciences, Japan, parasitic diseases, Gametocyte, Animals, musophagid bird, zoos.zoo, Protozoan Infections, Animal, 030304 developmental biology, 0303 health sciences, General Veterinary, biology, Bird Diseases, 04 agricultural and veterinary sciences, biology.organism_classification, Haemosporida, Note, Tauraco, Haemoproteus, Turaco, Animals, Zoo, Female

Abstract

One captive musophagid bird at a zoological garden in Japan showed clinical symptoms and was found to be infected with avian haemosporidia. We subsequently collected blood from all musophagid birds kept in the garden and examined for avian haemosporidia using both microscopic and molecular examination. Only Haemoproteus gametocytes were observed in the blood of two Guinea turaco (Tauraco persa). Three genetic lineages of Haemoproteus were identified from three Guinea turacos and one genetic lineage of Leucocytozoon was identified from a grey plantain-eater (Crinifer piscator). Detected Haemoproteus lineages were all identical and completely different from those previously reported in Japan, suggesting that these birds were infected in their original habitat. This is the first record of Haemoproteus infection in Guinea turacos.

Published

2019

233. Gametocyte clearance in children, from western Kenya, with uncomplicated Plasmodium falciparum malaria after artemether–lumefantrine or dihydroartemisinin–piperaquine treatment

Author

Kelvin Thiong’o, William Chege, Kelvin B. Musyoka, Protus Omondi, Eva Aluvaala Nambati, Francis Kimani, Damaris Matoke-Muhia, Francis W. Muregi, Burugu Mw, Edwin Too, and Maureen S. Otinga

Subjects

Male, 0301 basic medicine, Artemether/lumefantrine, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, medicine.medical_treatment, Plasmodium falciparum, 030106 microbiology, 030231 tropical medicine, Dihydroartemisinin, Physiology, Lumefantrine, lcsh:Infectious and parasitic diseases, Antimalarials, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Dihydroartemisinin/piperaquine, Piperaquine, parasitic diseases, Prevalence, medicine, Gametocyte, Humans, lcsh:RC109-216, Artemether, Malaria, Falciparum, Child, biology, business.industry, Research, Artemether, Lumefantrine Drug Combination, Infant, biology.organism_classification, Kenya, Artemisinins, Infectious Diseases, chemistry, Child, Preschool, Quinolines, Female, Parasitology, business, Artemether–lumefantrine, medicine.drug, Plasmodium falciparum gametocyte

Abstract

Background The efficacy and safety of artemether–lumefantrine (AL) and dihydroartemisinin–piperaquine (DP) against asexual parasites population has been documented. However, the effect of these anti-malarials on sexual parasites is still less clear. Gametocyte clearance following treatment is essential for malaria control and elimination efforts; therefore, the study sought to determine trends in gametocyte clearance after AL or DP treatment in children from a malaria-endemic site in Kenya. Methods Children aged between 0.5 and 12 years from Busia, western Kenya with uncomplicated Plasmodium falciparum malaria were assigned randomly to AL or DP treatment. A total of 334 children were enrolled, and dried blood spot samples were collected for up to 6 weeks after treatment during the peak malaria transmission season in 2016 and preserved. Plasmodium falciparum gametocytes were detected by qRT-PCR and gametocyte prevalence, density and mean duration of gametocyte carriage were determined. Results At baseline, all the 334 children had positive asexual parasites by microscopy, 12% (40/334) had detectable gametocyte by microscopy, and 83.7% (253/302) children had gametocytes by RT-qPCR. Gametocyte prevalence by RT-qPCR decreased from 85.1% (126/148) at day 0 to 7.04% (5/71) at day 42 in AL group and from 82.4% (127/154) at day 0 to 14.5% (11/74) at day 42 in DP group. The average duration of gametocyte carriage as estimated by qRT-PCR was slightly shorter in the AL group (4.5 days) than in the DP group (5.1 days) but not significantly different (p = 0.301). Conclusion The study identifies no significant difference between AL and DP in gametocyte clearance. Gametocytes persisted up to 42 days post treatment in minority of individuals in both treatment arms. A gametocytocidal drug, in combination with artemisinin-based combination therapy, will be useful in blocking malaria transmission more efficiently.

Published

2019

234. A new methodology for sporogony research of avian haemoproteids in laboratory-reared Culicoides spp., with a description of the complete sporogonic development of Haemoproteus pastoris

Author

Tatjana A. Iezhova, Gediminas Valkiūnas, Carolina Romeiro Fernandes Chagas, Rasa Bernotienė, Dovilė Bukauskaitė, Mikas Ilgūnas, and Rita Žiegytė

Subjects

0301 basic medicine, Entomology, Ceratopogonidae, 030231 tropical medicine, Zoology, Biology, lcsh:Infectious and parasitic diseases, Birds, 03 medical and health sciences, 0302 clinical medicine, Sporogony, Gametocyte, Parasite hosting, Animals, Culicoides nubeculosus, lcsh:RC109-216, Protozoan Infections, Animal, New methodology, Bird Diseases, Methodology, biology.organism_classification, Culicoides, Haemosporida, 030104 developmental biology, Infectious Diseases, Parasitology, Haemoproteus, Vector (epidemiology)

Abstract

Background Haemosporidian parasites of the genus Haemoproteus (Haemoproteidae) are widespread and cause haemoproteosis in birds and therefore, their diversity, ecology and evolutionary biology have become subjects of intensive research. However, the vectors and transmission patterns of haemoproteids as well as the epidemiology of haemoproteosis remain insufficiently investigated. Several species of Culicoides (Ceratopogonidae) support complete sporogony of haemoproteids belonging to the subgenus Parahaemoproteus. However, experimental research with these fragile insects is difficult to design in the field, particularly because their abundance markedly depends on seasonality. This is an obstacle for continuous sampling of sufficient numbers of naturally infected or experimentally exposed midges from wildlife. We developed simple methodology for accessing sporogonic development of haemoproteids in laboratory-reared Culicoides nubeculosus. This study aimed to describe the mosaic of methods constituting this methodology, which was applied for investigation of the sporogonic development of Haemoproteus (Parahaemoproteus) pastoris, a widespread parasite of the common starling Sturnus vulgaris. Methods The methodology consists of the following main stages: (i) laboratory rearing of C. nubeculosus from the egg stage to adult insects; (ii) selection of naturally infected birds, the donors of mature gametocytes to expose biting midges; (iii) experimental exposure of insects and their laboratory maintenance; and (iv) dissection of exposed insects. Biting midges were exposed to H. pastoris (cytochrome b lineage hLAMPUR01) detected in one naturally infected common starling. Engorged insects were dissected at intervals in order to follow sporogony. Microscopic examination and PCR-based methods were used to identify the sporogonic stages and to confirm the presence of the parasite lineage in infected insects, respectively. Results Culicoides nubeculosus females were successfully reared and exposed to H. pastoris, which completed sporogonic development 7–9 days post-infection when sporozoites were observed in the salivary glands. Conclusions The new methodology is easy to use and non-harmful for birds, providing opportunities to access the sporogonic stages of Parahaemoproteus parasites, which might be used in a broad range of parasitology and genetic studies. Culicoides nubeculosus is an excellent experimental vector of subgenus Parahaemoproteus and is recommended for various experimental studies aiming investigation of sporogony of these pathogens.

Published

2019

235. Antiplasmodial natural products: an update

Author

Nasir Tajuddeen and Fanie R. van Heerden

Subjects

medicine.medical_specialty, Plasmodium, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Scopus, Review, Drug resistance, 01 natural sciences, Natural (archaeology), Antiplasmodial, lcsh:Infectious and parasitic diseases, Antimalarials, Environmental health, parasitic diseases, Gametocyte, Humans, Medicine, lcsh:RC109-216, Plant metabolites, Artemisinin, Biological Products, Natural products, 010405 organic chemistry, business.industry, Transmission (medicine), Public health, medicine.disease, 0104 chemical sciences, Malaria, 010404 medicinal & biomolecular chemistry, Infectious Diseases, Marine natural products, Parasitology, business, medicine.drug

Abstract

Background Malaria remains a significant public health challenge in regions of the world where it is endemic. An unprecedented decline in malaria incidences was recorded during the last decade due to the availability of effective control interventions, such as the deployment of artemisinin-based combination therapy and insecticide-treated nets. However, according to the World Health Organization, malaria is staging a comeback, in part due to the development of drug resistance. Therefore, there is an urgent need to discover new anti-malarial drugs. This article reviews the literature on natural products with antiplasmodial activity that was reported between 2010 and 2017. Methods Relevant literature was sourced by searching the major scientific databases, including Web of Science, ScienceDirect, Scopus, SciFinder, Pubmed, and Google Scholar, using appropriate keyword combinations. Results and Discussion A total of 1524 compounds from 397 relevant references, assayed against at least one strain of Plasmodium, were reported in the period under review. Out of these, 39% were described as new natural products, and 29% of the compounds had IC50 ≤ 3.0 µM against at least one strain of Plasmodium. Several of these compounds have the potential to be developed into viable anti-malarial drugs. Also, some of these compounds could play a role in malaria eradication by targeting gametocytes. However, the research into natural products with potential for blocking the transmission of malaria is still in its infancy stage and needs to be vigorously pursued.

Published

2019

236. A Descriptive Study of Hematologic Characteristics of Malaria Patients Attending A Tertiary Care Hospital in The Region of Kutch

Author

Riti Tushar Kanti Sinha and Nidhi N. Shah

Subjects

medicine.medical_specialty, biology, business.industry, Plasmodium vivax, Plasmodium falciparum, Retrospective cohort study, biology.organism_classification, medicine.disease, Diagnosis of malaria, Acquired immunodeficiency syndrome (AIDS), Internal medicine, parasitic diseases, Epidemiology, Gametocyte, General Earth and Planetary Sciences, Medicine, business, Malaria, General Environmental Science

Abstract

Background: In India, the epidemiology of malaria is complex because of geo-ecological diversity, multi-ethnicity, and wide distribution of nine anopheline vectors transmitting two commonest plasmodia species. Considering the fact, it is vital that every centre has its own demographic and pathological data about the profile of malaria patients in its catchment area. Methods: The present retrospective study was carried in the Department of Pathology, Gujarat Adani Institute of Medical Sciences (GAIMS), Bhuj for a period of one year. A total of 102 cases were included in the study. The blood samples were collected in Ethylenediamine tetra-acetic acid (EDTA) vacutainers and smears were prepared. Leishman staining and field staining on thick smears was done according to the published protocols. The diagnosis of malaria parasite was confirmed by a positive peripheral smear examination. Rings, schizonts and gametocytes of the malaria parasites (plasmodium vivax and plasmodium falciparum) were viewed for diagnosis. Thrombocytopenia was considered when the platelet count was less than 150 x 109/L and leucopenia when the total leucocyte count was less than 4,000 cells /cu mm. Result: In our study, 102 malaria positive cases were investigated for platelet count and total leucocyte count. Out of the 102 cases, male population was affected more than female. Out of the various malaria species, plasmodium vivax was the most prevalent (82.35%). The most common age group affected by various species varied, with age group of 1-10 years being most common for plasmodium falciparum cases, 21 to 30 years being most common for plasmodium vivax and 11 to 20 years being most common for mixed infection. All the cases of plasmodium falciparum were found to be with normal leucocyte count whereas in plasmodium vivax 82.14% cases were with normal leucocyte count and only 17.85% cases with leucopenia. Mixed infection had almost similar scenario with 71.42% cases with normal leucocyte count and 28.57% with leucopenia. In our study more number of cases of plasmodium falciparum was associated with thrombocytopenia (25%) as compared to plasmodium vivax (11.9%) and none in mixed infection. Conclusion: The high prevalence of malaria suggests the importance of timely diagnosis . The early identification of thrombocytopenia and leucopenia aids in timely management. This helps to decrease complicated malaria cases and its related mortality.

Published

2019

237. Differential expression of var subgroups and PfSir2a genes in afebrile Plasmodium falciparum malaria: a matched case–control study

Author

Caterina Guinovart, Aina Casellas, Eusebio Macete, John J. Aponte, Francisco Saute, Pedro Aide, Pau Cisteró, Lidia Nhamussua, Charfudin Sacoor, Himanshu Gupta, Pedro L. Alonso, Beatriz Galatas, Gloria Matambisso, Quique Bassat, and Alfredo Mayor

Subjects

Male, 0301 basic medicine, Protozoan Proteins, Gene Expression, Gametocytes, 0302 clinical medicine, Parasite hosting, Malaria, Falciparum, Child, Mozambique, biology, Afebrile malaria, Infectious Diseases, Child, Preschool, Female, Sample collection, Adult, medicine.medical_specialty, lcsh:Arctic medicine. Tropical medicine, Adolescent, lcsh:RC955-962, Plasmodium falciparum, 030231 tropical medicine, Malària, lcsh:Infectious and parasitic diseases, Young Adult, 03 medical and health sciences, var genes, parasitic diseases, medicine, Gametocyte, Humans, lcsh:RC109-216, Research, Infant, Newborn, Case-control study, Infant, medicine.disease, biology.organism_classification, Moçambic, Malaria, Cross-Sectional Studies, 030104 developmental biology, Parasitology, Case-Control Studies, Tropical medicine, Immunology, PfSir2a

Abstract

Background Poor knowledge on the afebrile Plasmodium falciparum biology limits elimination approaches to target asymptomatic malaria. Therefore, the association of parasite factors involved in cytoadhesion, parasite multiplication and gametocyte maturation with afebrile malaria was assessed. Methods Plasmodium falciparum isolates were collected from febrile (axillary temperature ≥ 37.5 °C or a reported fever in the previous 24 h) and afebrile (fever neither at the visit nor in the previous 24 h) individuals residing in Southern Mozambique. var, PfSir2a and Pfs25 transcript levels were determined by reverse transcriptase quantitative PCRs (RT-qPCRs) and compared among 61 pairs of isolates matched by parasite density, age and year of sample collection. Results The level of varC and PfSir2a transcripts was higher in P. falciparum isolates from afebrile individuals (P ≤ 0.006), while varB and DC8 genes (P ≤ 0.002) were higher in isolates from individuals with febrile infections. After adjusting the analysis by area of residence, doubling the relative transcript unit (RTU) of varC and PfSir2a was associated with a 29.7 (95% CI 4.6–192.3) and 8.5 (95% CI 1.9–32.2) fold increases, respectively, of the odds of being afebrile. In contrast, doubling the RTU of varB and DC8 was associated with a 0.8 (95% CI 0.05–0.6) and 0.2 (95% CI 0.04–0.6) fold changes, respectively, of the odds of being afebrile. No significant differences were found for Pfs25 transcript levels in P. falciparum isolates from afebrile and febrile individuals. Conclusions var and gametocyte-specific transcript patterns in febrile and afebrile infections from southern Mozambique matched by age, parasite density and recruitment period suggest similar transmissibility but differential expression of variant antigens involved in cytoadhesion and immune-evasion.

Published

2019

238. Diversity and immune responses against Plasmodium falciparum gametocytes in non-febrile school children living in Southern Ghana

Author

Samuel O. Blankson, Nii Ayite Aryee, Linda E. Amoah, Ruth Ayanful-Torgby, and Hamza B. Abagna

Subjects

Male, Relative avidity, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Plasmodium falciparum, 030231 tropical medicine, Protozoan Proteins, Gametocyte, Antigens, Protozoan, Ghana, IgG responses, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, Immune system, Antigen, Prevalence, Humans, Parasite hosting, Avidity, lcsh:RC109-216, 030212 general & internal medicine, Malaria, Falciparum, Child, biology, Research, biology.organism_classification, Infectious Diseases, Parasitology, Immunoglobulin G, Immunology, Pfs230, biology.protein, Female, Malaria transmission, Antibody

Abstract

Background Natural exposure to gametocytes can result in the development of immunity against the gametocyte by the host as well as genetic diversity in the gametocyte. This study evaluated the quantity and quality of natural immune responses against a gametocyte antigen, Pfs230 as well as the prevalence and diversity of gametocytes circulating in children living in two communities in southern Ghana. Methods Whole blood (2.5 ml) was collected from 137 non-febrile school children aged between 6 and 12 years old quarterly for a 6-month period. A drop of blood was used to prepare thick and thin blood films for parasite prevalence and density estimation. Subsequently, stored plasma samples were used in ELISAs assays to measure antibody responses and avidity against Pfs230. RNA was extraction from Trizol preserved packed cells and subsequently converted to complementary DNA (cDNA) which was used for reverse transcriptase PCR (RT-PCR) to determine gametocytes prevalence and diversity. Results Gametocyte carriage in the peak season (July) determined by Pfg377 RT-PCR was 49.2% in Obom and 22.2% in Abura, and was higher than that determined by microscopy. Gametocyte diversity was low and predominated by the same allele at both sites. The relative avidity index for antibodies measured in Abura was higher than that recorded in Obom at all time points although Pfs230 IgG concentrations were significantly high (P

Published

2019

239. Disentangling Leucocytozoon parasite diversity in the neotropics: Descriptions of two new species and shortcomings of molecular diagnostics for leucocytozoids

Author

Sandra Rocío Hernández, Nubia E. Matta, Ingrid A. Lotta, Gediminas Valkiūnas, M. Andreína Pacheco, and Ananias A. Escalante

Subjects

Leucocytozoon, Mitochondrial DNA, biology, Phylogenetic tree, Cytochrome b, Andean mountains, Cotingidae, Haemosporida, biology.organism_classification, Article, Co-infection, New species, Birds, Infectious Diseases, Evolutionary biology, lcsh:Zoology, Gametocyte, Passeriforms, Parasite hosting, Grallaridae, Animal Science and Zoology, Parasitology, lcsh:QL1-991, Nested polymerase chain reaction

Abstract

Avian communities from South America harbor an extraordinary diversity of Leucocytozoon species (Haemosporida, Leucocytozoidae). Here, of 890 birds sampled, 10 (1.2%) were infected with Leucocytozoon parasites. Among them, two new species were discovered and described. Leucocytozoon grallariae sp. nov. and Leucocytozoon neotropicalis sp. nov. were found in non-migratory highland passeriforms belonging to the Grallaridae and Cotingidae, respectively. They both possess gametocytes in fusiform host cells. However, due to combining microscopic examination and molecular detection, it was revealed that these parasites were present in co-infections with other Leucocytozoon species, which gametocytes develop in roundish host cells, therefore exhibiting two highly distant parasite lineages isolated from the same samples. Remarkably, the lineages obtained by cloning the mtDNA genomes were not captured by the classic nested PCR, which amplifies a short fragment of cytochrome b gene. Phylogenetic analyses revealed that the lineages obtained by the classic nested PCR clustered with parasites possessing gametocytes in roundish host cells, while the lineages obtained by the mtDNA genome PCR protocol were closely related to Leucocytozoon parasites possessing gametocytes in fusiform host cells. These findings suggest problems with the sensitivity of the molecular protocols commonly used to detect Leucocytozoon species. A detailed analysis of the primers used in the classic nested PCR revealed a match with DNA sequences from those parasites that possess gametocytes in roundish host cells (i.e., Leucocytozoon fringillinarum), while they differ with the orthologous regions in the mtDNA genomes isolated from the samples containing the two new species. Since these are mixed infections, none of the lineages detected in this study can be assigned accurately to the new Leucocytozoon morphospecies that develops in fusiform host cells. However, phylogenetic analyses allowed us to hypothesize their most probable associations. This study highlights the need for developing detection methods to assess the diversity of Leucocytozoon parasites accurately., Graphical abstract Image 1, Highlights • Molecular diversity of Leucocytozoon is underestimated. • We described two new Leucocytozoon species infecting passerines endemic of Neotropics. • Commonly PCR protocols failed to detect Leucocytozoon lineages from Neotropical region.

Published

2019

240. Antimalarial activity of primaquine operates via a two-step biochemical relay

Author

Michael H. L. Wong, Paul M. O'Neill, Piyaporn Jirawatcharadech, Pietro Alano, Giancarlo A. Biagini, Sangeeta N. Bhatia, Grazia Camarda, Alex B. Miller, Mark J. I. Paine, Suet C. Leung, David A. Baker, Stephen A. Ward, Richard S. Priestley, Sandra March, and Ahmed Saif

Subjects

0301 basic medicine, CYP2D6, Sexual transmission, Primaquine, Science, Plasmodium falciparum, General Physics and Astronomy, 02 engineering and technology, Pharmacology, General Biochemistry, Genetics and Molecular Biology, Antimalarials, 03 medical and health sciences, Cytochrome P-450 Enzyme System, Bone Marrow, parasitic diseases, Gametocyte, medicine, Humans, Pharmacokinetics, Malaria, Falciparum, Mode of action, lcsh:Science, Multidisciplinary, Dose-Response Relationship, Drug, biology, Chemistry, Cytochrome P450, Hydrogen Peroxide, General Chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 3. Good health, 030104 developmental biology, Cytochrome P-450 CYP2D6, Liver, Aminoquinolines, biology.protein, lcsh:Q, 0210 nano-technology, NADP, Drug metabolism, medicine.drug

Abstract

Primaquine (PQ) is an essential antimalarial drug but despite being developed over 70 years ago, its mode of action is unclear. Here, we demonstrate that hydroxylated-PQ metabolites (OH-PQm) are responsible for efficacy against liver and sexual transmission stages of Plasmodium falciparum. The antimalarial activity of PQ against liver stages depends on host CYP2D6 status, whilst OH-PQm display direct, CYP2D6-independent, activity. PQ requires hepatic metabolism to exert activity against gametocyte stages. OH-PQm exert modest antimalarial efficacy against parasite gametocytes; however, potency is enhanced ca.1000 fold in the presence of cytochrome P450 NADPH:oxidoreductase (CPR) from the liver and bone marrow. Enhancement of OH-PQm efficacy is due to the direct reduction of quinoneimine metabolites by CPR with the concomitant and excessive generation of H2O2, leading to parasite killing. This detailed understanding of the mechanism paves the way to rationally re-designed 8-aminoquinolines with improved pharmacological profiles.

Published

2019

241. Polymorphism evidence in Plasmodium (Haemamoeba) lutzi Lucena, 1939 (Apicomplexa, Haemosporida) isolated from Brazilian wild birds

Author

Luísa de Oliveira, Marta D'Agosto, Isabel Martinele, Raquel Tostes, Franciane Cedrola, Kézia K. G. Scopel, Roberto Júnio Pedroso Dias, and Marcus Vinicius Xavier Senra

Subjects

0301 basic medicine, Plasmodium, Malaria, Avian, 030231 tropical medicine, Zoology, Animals, Wild, Forests, Biology, Birds, Apicomplexa, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, Avian malaria, Pigment accumulation, medicine, Gametocyte, Animals, Phylogeny, Microscopy, Polymorphism, Genetic, Bird Diseases, Cytochrome b, Haemamoeba, Cytochromes b, DNA, Protozoan, 030108 mycology & parasitology, Haemosporida, medicine.disease, biology.organism_classification, Infectious Diseases, Parasitology, Brazil

Abstract

Plasmodium parasites can infect great variety of bird species around the world inflicting the so called avian malaria, an illness that could be fatal in some cases and consequently, should be monitored and widely included into conservation programs. The aim of this study was to characterize two lineages of Plasmodium (Haemamoeba) lutzi found in some birds in the Atlantic Forest of Minas Gerais - Brazil, that were morphologically identified after blood smears analyses under light microscopy and molecularly by sequencing the mitochondrial cytochrome b gene (cyt b). Besides these two lineages could be clearly morphologically identified as P.(H.) lutzi, some variations in comparison with its original description were noticed: absence of meronts and gametocytes (early and fully grown) in polychromatic erythrocytes, the larger size of pigment granules in meronts and gametocytes, and the presence of small vacuoles between pigment accumulation in fully grow macrogametocytes. Moreover, a certain degree of genetic intraspecific diversity was also observed across the lineages of P. (H.) lutzi, indicating the existence of polymorphisms within this taxon, which is uncommon in Haemosporida. These results allow discussion about species boundaries within avian hemosporidians and highlight the importance of multidisciplinary approaches for a more efficient species identification and characterization.

Published

2019

242. Plasmodium falciparum sexual differentiation in malaria patients is associated with host factors and GDV1-dependent genes

Author

Ruth Ayanful-Torgby, Michelle C. Barbeau, Lacy M. Simons, Deepti K. Reddy, Evans K. Obboh, Surendra K Prajapati, Cara H. Olsen, Kim C. Williamson, Elizabeth Cudjoe, Miho Usui, Benjamin Abuaku, Festus K. Acquah, Beata Czesny, Linda E. Amoah, Courage Kakaney, Jones A. Amponsah, and Sorana Raiciulescu

Subjects

Male, 0301 basic medicine, Sex Differentiation, Genes, Protozoan, Protozoan Proteins, General Physics and Astronomy, 02 engineering and technology, Parasitemia, Hematocrit, Ghana, Plasmodium, Gametogenesis, Malaria, Falciparum, Child, lcsh:Science, Multidisciplinary, biology, medicine.diagnostic_test, Age Factors, 021001 nanoscience & nanotechnology, Publisher Correction, 3. Good health, Child, Preschool, Differentiation, Female, 0210 nano-technology, Science, Plasmodium falciparum, Article, General Biochemistry, Genetics and Molecular Biology, Host-Parasite Interactions, 03 medical and health sciences, parasitic diseases, Gametocyte, medicine, Humans, Allele, Infectious-disease epidemiology, Sexual differentiation, Infectious-disease diagnostics, Lysophosphatidylcholines, General Chemistry, biology.organism_classification, medicine.disease, Malaria, 030104 developmental biology, Immunology, lcsh:Q

Abstract

Plasmodium sexual differentiation is required for malaria transmission, yet much remains unknown about its regulation. Here, we quantify early gametocyte-committed ring (gc-ring) stage, P. falciparum parasites in 260 uncomplicated malaria patient blood samples 10 days before maturation to transmissible stage V gametocytes using a gametocyte conversion assay (GCA). Seventy six percent of the samples have gc-rings, but the ratio of gametocyte to asexual-committed rings (GCR) varies widely (0–78%). GCR correlates positively with parasitemia and is negatively influenced by fever, not hematocrit, age or leukocyte counts. Higher expression levels of GDV1-dependent genes, ap2-g, msrp1 and gexp5, as well as a gdv1 allele encoding H217 are associated with high GCR, while high plasma lysophosphatidylcholine levels are associated with low GCR in the second study year. The results provide a view of sexual differentiation in the field and suggest key regulatory roles for clinical factors and gdv1 in gametocytogenesis in vivo., Here, the authors quantify early gametocyte-committed ring (gc-ring) stage Plasmodium falciparum parasites in 260 malaria patients 10 days before maturation to transmissible stage V gametocytes, and show that the ratio of circulating gc-rings is positively correlated with parasitemia and negatively correlated with body temperature.

Published

2019

243. Prevalence of P. falciparum Gametocyte Carrying between Two Sympatric Ethnic Groups Living in Seasonal Malaria Transmission Setting of Burkina Faso after Universal Bed Nets Coverage Campaigns

Author

Soulama Issiaka, Sirima B. Sodiomon, Sombie S. Benjamin, Henry Bere Noëlie, Serme S. Samuel, C. Bougouma Edith, Diarra Amidou, Mangano Valentina, Traore Yves, Sombie Salif, Kargougou Desire, Ouedraogo N. Issa, Tiono Alfred, and Modiano David

Subjects

Bed nets, Geography, Malaria transmission, Sympatric speciation, parasitic diseases, Ethnic group, Gametocyte, General Medicine, Demography

Abstract

Aims: This study aimed to compare the prevalence of P. falciparum gametocyte carriage in two sympatric ethnic groups living in seasonal malaria transmission setting in Burkina Faso. Study Design: A cross-sectional survey was conducted from September to November 2017 in children aged from 2 to 12 years and living in Barkoundouba, avillage located at the Northeast part of Ouagadougou, capital city of Burkina Faso. The study participants were subject to clinical examination including axillary temperature. Blood samples were collected from finger pricks to performed RDT and blood smears for malaria diagnosis and on filter paper for molecular detection of the parasite. Any case of fever (temperature ≥ 37.5°C) with RDT positive was treated according to national guideline. Methodology: We included 461 patients in this study. P. falciparum presence and densities were determined by microscopy using Giemsa-stained thick blood smears. The nested PCR was used to confirm the presence of the asexual parasites assessed by the microscopy. Results: P. falciparum prevalence assessed by microscopy was 83 (32.55%) and 103 (50%) for Fulani and Mossi respectively, whereas the prevalence by nested PCR was 88 (39.11%) for Fulani and 121 (68.75%) for Mossi. The gametocyte carriage in the two ethnic groups was: 3.53% for Fulani and 11.65% for Mossi. The prevalence ratio for P. falciparum asymptomatic and gametocyte carriers was 1.5 and 3 in favor of Mossi group respectively. Conclusion: This study showed that the Fulani have a lower prevalence of P. falciparum compared to the Mossi group despite the decrease of parasitemia and prevalence in both groups compared to previous studies.

Published

2019

244. Upregulation of gametocytogenesis in anti-malarial drug-resistant Plasmodium falciparum

Author

Thavamani Rajapandi

Subjects

0301 basic medicine, biology, medicine.medical_treatment, 030231 tropical medicine, Dihydroartemisinin, Plasmodium falciparum, Drug resistance, 030108 mycology & parasitology, biology.organism_classification, medicine.disease, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Parasitology, parasitic diseases, Gametocyte, medicine, Dormancy, Artemisinin, Malaria, medicine.drug

Abstract

The deadliest form of human malaria is primarily caused by the protozoan parasite Plasmodium falciparum. These parasites establish pathogenicity in the human host with a very low number of sexual forms or gametocytes, which are transmitted to the mosquitoes. Several studies have reported that exposing artemisinin-sensitive P. falciparum rings to a low concentration of dihydroartemisinin (DHA) results in dormancy, and the artemisinin-induced dormant (AID) forms are recovered into normal growth stages after 5–20 days. In this study, artemisinin-resistant P. falciparum parasites were tested for the development of AID forms and their recovery. Interestingly, it was found that exposure of an asynchronous culture of artemisinin-resistant P. falciparum IPC 5202 to DHA, a line carrying a mutation in the PfK13 gene that is linked to artemisinin resistance, also results in dormancy. Both the ring and some late stages of these AID forms recovered after 10–15 days. Furthermore, a high proportion of the recovered dormant forms developed into sexual forms or gametocytes after 3–4 weeks, which is almost a 7–8 times higher rate of conversion of asexual to sexual forms (gametocytes) or the malaria transmissible forms. In contrast, only early ring forms of artemisinin-sensitive parasites recovered slowly, and additional exposure of these parasites to artemisinin resulted in complete clearance within a week. This is in contrast to the resistant parasites exposed to a second dose of artemisinin, which resulted in a very high rate of dormancy and recovery into sexual forms or gametocytes.

Published

2019

245. The transmission dynamics of a within-and between-hosts malaria model

Author

Folashade B. Agusto, Maria E. Orive, and Maria Conceição A. Leite

Subjects

0106 biological sciences, education.field_of_study, Host (biology), 010604 marine biology & hydrobiology, Ecological Modeling, Mortality rate, Population, Zoology, Biology, medicine.disease, 010603 evolutionary biology, 01 natural sciences, law.invention, Biting, Transmission (mechanics), law, Vector (epidemiology), parasitic diseases, Gametocyte, medicine, education, Ecology, Evolution, Behavior and Systematics, Malaria

Abstract

In this paper, we developed a novel deterministic coupled model tying together the effects of within-host and population level dynamics on malaria transmission dynamics. We develop within-host and within-vector dynamic models, population level between-hosts models, and a nested coupled model combining these levels. The unique feature of this work is the way the coupling and feedback for the model use the various life stages of the malaria parasite both in the human host and the mosquito vector. Analysis of the coupled and the within-human host models indicate the existence of locally asymptotically stable infection- and parasite-free equilibria when the associated reproduction numbers are less than one. The population-level model, on the other hand, exhibits backward bifurcation, where the stable disease-free equilibrium co-exists with a stable endemic equilibrium. A global sensitivity analysis was carried out to measure the effects of the sensitivity and uncertainty in the various model parameters estimates. The results indicate that the most important parameters driving the pathogen level within an infected human are the production rate of the red blood cells from the bone marrow, the infection rate, the immunogenicity of the infected red blood cells, merozoites and gametocytes, and the immunosensitivity of the merozoites and gametocytes. The key parameters identified at the population level are the human recovery rate, the death rate of the mosquitoes, the recruitment rate of susceptible humans into the population, the mosquito biting rate, the transmission probabilities per contact in mosquitoes and in humans, and the parasite production and clearance rates in the mosquitoes. Defining the feedback functions as a linear function of the mosquito biting rate, numerical exploration of the coupled model reveals oscillations in the parasite populations within a human host in the presence of the host immune response. These oscillations dampen as the mosquito biting rate increases. We also observed that the oscillation and damping effect seen in the within-human host dynamics fed back into the population level dynamics; this in turn amplifies the oscillations in the parasite population within the mosquito-host.

Published

2019

246. Gametocytaemia in senegalese children with uncomplicated Falciparum malaria treated with chloroquine, amodiaquine or sulfadoxine + pyrimethamine

Author

Sokhina C.S, Trape J.-F, and Robert V.

Subjects

malaria, Plasmodium falciparum, gametocyte, resistance, chloroquine, amodiaquine, sulfadoxine, pyrimethamine, Senegal, Infectious and parasitic diseases, RC109-216

Abstract

Plasmodium falciparum gametocytaemia was studied in 266 Senegalese children (median 4 years, range 0.5-16) with uncomplicated malaria treated with chloroquine (CQ), amodiaquine (AQ) or sulfadoxine+pyrimethamine (SP). The proportion of resistant infections in vivo to these drugs was 44 %, 16 % and 7 %, respectively. Gametocytes were counted by microscopy in thick smears on days 0, 4, 7 and 14 after treatment. There was a peak of gametocytaemia one week after treatment; on days 0, 7 and 14 the gametocyte prevalences were 35 %, 73 and 63 %, and the geometric means of gametocyte densities were 1.3, 12.5 and 5.6/μL of blood. Three factors were found to influence gametocytaemia: treatment, efficacy of treatment, and duration of symptoms before treatment. Gametocyte prevalence and density significantly appeared higher in children treated with SP than with CQ, and higher with CQ than with AQ. Gametocyte prevalence and density were higher in resistant than in sensitive infections. The period between the appearance of the first clinical symptoms and treatment was positively and significantly linked to gametocyte prevalence and density on days 0 and 4. Early treatment with AQ, against sensitive infection, was followed by the lowest gametocytaemia. By contrast, treatment with SP against resistant infection was followed by the highest gametocytaemia. No clear relationship was observed between the density of asexual stages on day 0 and the gametocytaemia at any day between days 0 and 14. The epidemiological significance of post-therapeutic gametocytaemia and its possible role in the spread of resistant parasites are underlined. Solutions are proposed in order to avoid or reduce this gametocytaemia.

Published

2001

247. Investigation of factors affecting the production of P. falciparum gametocytes in an Indian isolate

Author

Wadi, Ishan, Deora, Nimita, Nath, Mahendra, and Sinha, Abhinav

Published

2021

248. Increased investment in gametocytes in asymptomatic Plasmodium falciparum infections in the wet season.

Author

Oduma, Colins O, Oduma, Colins O, Ogolla, Sidney, Atieli, Harrysone, Ondigo, Bartholomew N, Lee, Ming-Chieh, Githeko, Andrew K, Dent, Arlene E, Kazura, James W, Yan, Guiyun, Koepfli, Cristian, Oduma, Colins O, Oduma, Colins O, Ogolla, Sidney, Atieli, Harrysone, Ondigo, Bartholomew N, Lee, Ming-Chieh, Githeko, Andrew K, Dent, Arlene E, Kazura, James W, Yan, Guiyun, and Koepfli, Cristian

Abstract

BackgroundTransmission stemming from asymptomatic infections is increasingly being recognized as a threat to malaria elimination. In many regions, malaria transmission is seasonal. It is not well understood whether Plasmodium falciparum modulates its investment in transmission to coincide with seasonal vector abundance.MethodsWe sampled 1116 asymptomatic individuals in the wet season, when vectors are abundant, and 1743 in the dry season, in two sites in western Kenya, representing different transmission intensities (Chulaimbo, moderate transmission, and Homa Bay, low transmission). Blood samples were screened for P. falciparum by qPCR, and gametocytes by pfs25 RT-qPCR.ResultsParasite prevalence by qPCR was 27.1% (Chulaimbo, dry), 48.2% (Chulaimbo, wet), 9.4% (Homabay, dry), and 7.8% (Homabay, wet). Mean parasite densities did not differ between seasons (P = 0.562). pfs25 transcripts were detected in 119/456 (26.1%) of infections. In the wet season, fewer infections harbored detectable gametocytes (22.3% vs. 33.8%, P = 0.009), but densities were 3-fold higher (wet: 3.46 transcripts/uL, dry: 1.05 transcripts/uL, P < 0.001). In the dry season, 4.0% of infections carried gametocytes at moderate-to-high densities likely infective (> 1 gametocyte per 2 uL blood), compared to 7.9% in the wet season. Children aged 5-15 years harbored 76.7% of infections with gametocytes at moderate-to-high densities.ConclusionsParasites increase their investment in transmission in the wet season, reflected by higher gametocyte densities. Despite increased gametocyte densities, parasite density remained similar across seasons and were often below the limit of detection of microscopy or rapid diagnostic test, thus a large proportion of infective infections would escape population screening in the wet season. Seasonal changes of gametocytemia in asymptomatic infections need to be considered when designing malaria control measures.

Published

2021

249. Pleiotropic Roles for the Plasmodium berghei RNA Binding Protein UIS12 in Transmission and Oocyst Maturation

Author

Müller, Katja, Silvie, Olivier, Mollenkopf, Hans-Joachim, Matuschewski, Kai, Müller, Katja, Silvie, Olivier, Mollenkopf, Hans-Joachim, and Matuschewski, Kai

Abstract

Colonization of the mosquito host by Plasmodium parasites is achieved by sexually differentiated gametocytes. Gametocytogenesis, gamete formation and fertilization are tightly regulated processes, and translational repression is a major regulatory mechanism for stage conversion. Here, we present a characterization of a Plasmodium berghei RNA binding protein, UIS12, that contains two conserved eukaryotic RNA recognition motifs (RRM). Targeted gene deletion resulted in viable parasites that replicate normally during blood infection, but form fewer gametocytes. Upon transmission to Anopheles stephensi mosquitoes, both numbers and size of midgut-associated oocysts were reduced and their development stopped at an early time point. As a consequence, no salivary gland sporozoites were formed indicative of a complete life cycle arrest in the mosquito vector. Comparative transcript profiling in mutant and wild-type infected red blood cells revealed a decrease in transcript abundance of mRNAs coding for signature gamete-, ookinete-, and oocyst-specific proteins in uis12(-) parasites. Together, our findings indicate multiple roles for UIS12 in regulation of gene expression after blood infection in good agreement with the pleiotropic defects that terminate successful sporogony and onward transmission to a new vertebrate host., Peer Reviewed

Published

2021

250. Chemogenomic Fingerprints Associated with Stage-Specific Gametocytocidal Compound Action against Human Malaria Parasites

Author

Kelly Chibale, Janette Reader, Jandeli Niemand, Roelof Daniel Jacobus Van Wyk, Lyn-Marie Birkholtz, Ashleigh van Heerden, Manuel Llinás, Lindsey M. Orchard, Riëtte van Biljon, and Mariëtte van der Watt

Subjects

Genetics, biology, Kinase, Plasmodium falciparum, biology.organism_classification, medicine.disease, Plasmodium, Malaria, Serine, Transcriptome, Antimalarials, Infectious Diseases, Gametocyte, medicine, Animals, Humans, Parasites, Stage specific

Abstract

Kinase-focused inhibitors previously revealed compounds with differential activity against different stages of Plasmodium falciparum gametocytes. MMV666810, a 2-aminopyrazine, is more active on late-stage gametocytes, while a pyrazolopyridine, MMV674850, preferentially targets early-stage gametocytes. Here, we probe the biological mechanisms underpinning this differential stage-specific killing using in-depth transcriptome fingerprinting. Compound-specific chemogenomic profiles were observed with MMV674850 treatment associated with biological processes shared between asexual blood stage parasites and early-stage gametocytes but not late-stage gametocytes. MMV666810 has a distinct profile with clustered gene sets associated primarily with late-stage gametocyte development, including Ca2+-dependent protein kinases (CDPK1 and 5) and serine/threonine protein kinases (FIKK). Chemogenomic profiling therefore highlights essential processes in late-stage gametocytes, on a transcriptional level. This information is important to prioritize compounds that preferentially compromise late-stage gametocytes for further development as transmission-blocking antimalarials.

Published

2021