Your search keyword '"Gametocyte"' showing total 2,252 results

1. Exploring the naturally acquired response to Pvs47 gametocyte antigen.

Author

Soares da Veiga, Gisele Tatiane, Amaral Donassolo, Rafael, Forcellini, Sofia, Weber Ferraboli, Julia, Kujbida Junior, Mario Antonio, Mitie Nisimura, Lı'ndice, Werzel Bassai, Letícia, Luis Kessler, Rafael, Serpeloni, Mariana, Carneiro Bittencourt, Najara, Alves R. Salazar, Yanka Evellyn, Ferreira Guimarães, Luiz Felipe, Louzada, Jaime, Alves da Silva Barros, Dayanne Kamylla, Pinto Lopes, Stefanie Costa, Helena Carvalho, Luzia, Nóbrega de Sousa, Tais, Satiko Kano, Flora, Maranhão Costa, Fabio Trindade, and Fanini Wowk, Pryscilla

Subjects

RECOMBINANT proteins, ANTIBODY formation, ASYMPTOMATIC patients, GERM cells, PLASMODIUM vivax

Abstract

Malaria represents a challenging global public health task, with Plasmodium vivax being the predominant parasite in Brazil and the most widely distributed species throughout the world. Developing a vaccine against P. vivax malaria demands innovative strategies, and targeting gametocyte antigens shows promise for blocking transmission prevention. Among these antigens, Pvs47, expressed in gametocytes, has shown remarkable efficacy in transmission blocking. However, remains underexplored in vaccine formulations. This study employed in silico methods to comprehensively characterize the physicochemical properties, structural attributes, epitope presence, and conservation profile of Pvs47. Additionally, we assessed its antigenicity in individuals exposed to malaria in endemic Brazilian regions. Recombinant protein expression occurred in a eukaryotic system, and antigenicity was evaluated using immunoenzymatic assays. The responses of naturally acquired IgM, total IgG, and IgG subclasses were analyzed in three groups of samples from Amazon region. Notably, all samples exhibited anti-Pvs47 IgM and IgG antibodies, with IgG3 predominating. Asymptomatic patients demonstrated stronger IgG responses and more diverse subclass responses. Anti-Pvs47 IgM and IgG responses in symptomatic individuals decrease over time. Furthermore, we observed a negative correlation between anti-Pvs47 IgM response and gametocytemia in samples of symptomatic patients, indicating a gametocyte-specific response. Additionally, negative correlation was observed among anti-Pvs47 antibody response and hematocrit levels. Furthermore, comparative analysis with widely characterized blood antigens, PvAMA1 and PvMSP119, revealed that Pvs47 was equally or more recognized than both proteins. In addition, there is positive correlation between P. vivax blood asexual and sexual stage immune responses. In summary, our study unveils a significant prevalence of anti-Pvs47 antibodies in diverse Amazonian samples and the importance of IgM response for gametocytes depuration. These findings regarding the in silico characterization and antigenicity of Pvs47 provide crucial insights for potential integration into P. vivax vaccine formulations. [ABSTRACT FROM AUTHOR]

Published

2024

2. A human-serum-free medium can induce more infectious P. falciparum gametocytes than a conventional human-serum-containing medium.

Author

Miura, Kazutoyo, Deng, Bingbing, Varadharajan Suresh, Ragavan, Gebremicale, Yonas T., Zhou, Luwen, Pham, Thao P., Roche, Kyle, Diouf, Ababacar, Lovell, Jonathan F., Julien, Jean-Philippe, and Long, Carole A.

Abstract

Malaria remains a global health problem, and the standard membrane feeding assay (SMFA) is a key functional assay for development of new interventions to stop malaria transmission from human to mosquito. For SMFA, media with ~ 10% of human serum has been used for infectious gametocyte cultures, however, there are multiple challenges to obtain a suitable human serum. Here we show a human-serum-free culture medium (HSF), which was a mixture of two stem cell culture media and AlbuMAX, supported infectious gametocyte growth. Moreover, the HSF-induced gametocytes elicited significantly higher numbers of oocysts compared to gametocytes cultured with conventional human serum medium (Conv). While some caution is required when comparing percent transmission reducing activity data generated from HSF-SMFA and Conv-SMFA, the HSF method can facilitate the establishment of gametocyte cultures or SMFA by bypassing the need for human serum. Thus, this study will support future development of P. falciparum transmission-blocking interventions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Simple supplementation of serum-free medium produces gametocytes of Plasmodium falciparum that transmit to mosquitoes.

Author

Pradhan, Sabyasachi, Ubiaru, Prince Chigozirim, and Ranford-Cartwright, Lisa

Subjects

*ANOPHELES gambiae, *SERUM-free culture media, *GERM cells, *SERUM albumin, *PLASMODIUM falciparum

Abstract

Background: Human serum is a major component of Plasmodium falciparum culture medium, and can be replaced with AlbuMAX™ II, a lipid-rich bovine serum albumin, for asexual cultures. However, gametocytes produced without serum are poorly infective to mosquitoes. Serum suffers from high cost, limited availability, and variability in quality. Methods: Several commercially-available media supplements were tested for their ability to support parasite growth and production of P. falciparum (3D7) gametocytes in standard RPMI1640 medium containing 0.5% AlbuMAX. The impact on asexual growth and gametocyte production with each supplement was assessed and compared to standard RPMI1640 medium containing 10% human serum, as well as to medium containing 0.5% AlbuMAX alone. The infectivity of gametocytes produced with one supplement to Anopheles gambiae sensu stricto was assessed by standard membrane feeding assay and measuring both prevalence of infection and oocyst intensity. Results: Supplementation of medium containing 0.5% AlbuMAX with five supplements did not affect asexual growth of P. falciparum, and four of the five supplements supported early gametocyte production. The supplement producing the highest number of gametocytes, ITS-X, was further investigated and was found to support the production of mature gametocytes. Infection prevalence and oocyst intensity did not differ significantly between mosquitoes given a membrane feed containing gametocytes grown in medium with 0.5% AlbuMAX + ITS-X and those grown in medium with 10% human serum. Infection prevalence and oocyst intensity was significantly higher in case of ITS–X supplementation when compared to AlbuMAX alone. Infectious gametocytes were also produced from two field clones using ITS–X supplementation. Conclusions: Serum-free medium supplemented with ITS-X was able to support the growth of gametocytes of P. falciparum that were as infectious to An. gambiae as those grown in medium with 10% serum. This is the first fully serum-free culture system able to produce highly infectious gametocytes, thereby removing the requirement for access to serum for transmission assays. [ABSTRACT FROM AUTHOR]

Published

2024

4. Antimalarial drug sulfadoxine induces gametocytogenesis in Plasmodium berghei.

Author

Azmi, Wihda Aisarul, Rizki, Andita Fitri Mutiara, Shidiq, Achmad, Djuardi, Yenny, Artika, I Made, and Siregar, Josephine Elizabeth

Subjects

*PLASMODIUM berghei, *MOLECULAR biology, *PLASMODIUM, *GENE targeting, *DRUG resistance

Abstract

Background: The spread of antimalarial drug resistance parasites is a major obstacle in eliminating malaria in endemic areas. This increases the urgency for developing novel antimalarial drugs with improved profiles to eliminate both sensitive and resistant parasites in populations. The invention of the drug candidates needs a model for sensitive and resistant parasites on a laboratory scale. Methods: Repeated Incomplete Treatment (RIcT) method was followed in raising the rodent malaria parasite, Plasmodium berghei, resistant to sulfadoxine. Plasmodium berghei were exposed to an adequate therapeutic dose of sulfadoxine without finishing the treatment to let the parasite recover. Cycles of drug treatment and parasite recovery were repeated until phenotypic resistance appeared. Results: After undergoing 3–4 cycles, phenotypic resistance was not yet found in mice treated with sulfadoxine. Nevertheless, the molecular biology of dhps gene (the target of sulfadoxine) was analyzed at the end of the RIcT cycle. There was no mutations found in the gene target. Interestingly, the appearance of gametocytes at the end of every cycle of drug treatment and parasite recovery was observed. These gametocytes later on would no longer extend their life in the RBC stage, unless mosquitoes bite the infected host. This phenomenon is similar to the case in human malaria infections treated with sulfadoxine-pyrimethamine (SP). Conclusions: In this study, the antimalarial drug sulfadoxine induced gametocytogenesis in P. berghei, which could raise the risk factor for malaria transmission. [ABSTRACT FROM AUTHOR]

Published

2024

5. A human-serum-free medium can induce more infectious P. falciparum gametocytes than a conventional human-serum-containing medium

Author

Kazutoyo Miura, Bingbing Deng, Ragavan Varadharajan Suresh, Yonas T. Gebremicale, Luwen Zhou, Thao P. Pham, Kyle Roche, Ababacar Diouf, Jonathan F. Lovell, Jean-Philippe Julien, and Carole A. Long

Subjects

Plasmodium Falciparum: malaria, Gametocyte, Gametocyte culture, Serum free, Standard membrane-feeding assay, SMFA, Medicine, Science

Abstract

Abstract Malaria remains a global health problem, and the standard membrane feeding assay (SMFA) is a key functional assay for development of new interventions to stop malaria transmission from human to mosquito. For SMFA, media with ~ 10% of human serum has been used for infectious gametocyte cultures, however, there are multiple challenges to obtain a suitable human serum. Here we show a human-serum-free culture medium (HSF), which was a mixture of two stem cell culture media and AlbuMAX, supported infectious gametocyte growth. Moreover, the HSF-induced gametocytes elicited significantly higher numbers of oocysts compared to gametocytes cultured with conventional human serum medium (Conv). While some caution is required when comparing percent transmission reducing activity data generated from HSF-SMFA and Conv-SMFA, the HSF method can facilitate the establishment of gametocyte cultures or SMFA by bypassing the need for human serum. Thus, this study will support future development of P. falciparum transmission-blocking interventions.

Published

2024

6. Simple supplementation of serum-free medium produces gametocytes of Plasmodium falciparum that transmit to mosquitoes

Author

Sabyasachi Pradhan, Prince Chigozirim Ubiaru, and Lisa Ranford-Cartwright

Subjects

Plasmodium falciparum, Gametocyte, AlbuMAX™, Serum, Culture, Transmission, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Human serum is a major component of Plasmodium falciparum culture medium, and can be replaced with AlbuMAX™ II, a lipid-rich bovine serum albumin, for asexual cultures. However, gametocytes produced without serum are poorly infective to mosquitoes. Serum suffers from high cost, limited availability, and variability in quality. Methods Several commercially-available media supplements were tested for their ability to support parasite growth and production of P. falciparum (3D7) gametocytes in standard RPMI1640 medium containing 0.5% AlbuMAX. The impact on asexual growth and gametocyte production with each supplement was assessed and compared to standard RPMI1640 medium containing 10% human serum, as well as to medium containing 0.5% AlbuMAX alone. The infectivity of gametocytes produced with one supplement to Anopheles gambiae sensu stricto was assessed by standard membrane feeding assay and measuring both prevalence of infection and oocyst intensity. Results Supplementation of medium containing 0.5% AlbuMAX with five supplements did not affect asexual growth of P. falciparum, and four of the five supplements supported early gametocyte production. The supplement producing the highest number of gametocytes, ITS-X, was further investigated and was found to support the production of mature gametocytes. Infection prevalence and oocyst intensity did not differ significantly between mosquitoes given a membrane feed containing gametocytes grown in medium with 0.5% AlbuMAX + ITS-X and those grown in medium with 10% human serum. Infection prevalence and oocyst intensity was significantly higher in case of ITS–X supplementation when compared to AlbuMAX alone. Infectious gametocytes were also produced from two field clones using ITS–X supplementation. Conclusions Serum-free medium supplemented with ITS-X was able to support the growth of gametocytes of P. falciparum that were as infectious to An. gambiae as those grown in medium with 10% serum. This is the first fully serum-free culture system able to produce highly infectious gametocytes, thereby removing the requirement for access to serum for transmission assays.

Published

2024

7. Antimalarial drug sulfadoxine induces gametocytogenesis in Plasmodium berghei

Author

Wihda Aisarul Azmi, Andita Fitri Mutiara Rizki, Achmad Shidiq, Yenny Djuardi, I Made Artika, and Josephine Elizabeth Siregar

Subjects

Plasmodium berghei, Sulfadoxine, Repeated incomplete treatment, Gametocyte, Resistant parasite, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The spread of antimalarial drug resistance parasites is a major obstacle in eliminating malaria in endemic areas. This increases the urgency for developing novel antimalarial drugs with improved profiles to eliminate both sensitive and resistant parasites in populations. The invention of the drug candidates needs a model for sensitive and resistant parasites on a laboratory scale. Methods Repeated Incomplete Treatment (RIcT) method was followed in raising the rodent malaria parasite, Plasmodium berghei, resistant to sulfadoxine. Plasmodium berghei were exposed to an adequate therapeutic dose of sulfadoxine without finishing the treatment to let the parasite recover. Cycles of drug treatment and parasite recovery were repeated until phenotypic resistance appeared. Results After undergoing 3–4 cycles, phenotypic resistance was not yet found in mice treated with sulfadoxine. Nevertheless, the molecular biology of dhps gene (the target of sulfadoxine) was analyzed at the end of the RIcT cycle. There was no mutations found in the gene target. Interestingly, the appearance of gametocytes at the end of every cycle of drug treatment and parasite recovery was observed. These gametocytes later on would no longer extend their life in the RBC stage, unless mosquitoes bite the infected host. This phenomenon is similar to the case in human malaria infections treated with sulfadoxine-pyrimethamine (SP). Conclusions In this study, the antimalarial drug sulfadoxine induced gametocytogenesis in P. berghei, which could raise the risk factor for malaria transmission.

Published

2024

8. Asymptomatic malaria and predictors among migrant farmworkers East Shewa zone Oromia Ethiopia

Author

Gudeta Legesse, Weynshet Tafesse, Dagaga Kenea, Bereket Wake Subussa, Gezahegn Solomon Alemayehu, Tadesse Kebede, Lemu Golassa, Musa Mohammed Ali, and Asrat Hailu

Subjects

Plasmodium, Asymptomatic malaria, Gametocyte, East Shewa, Ethiopia, Medicine, Science

Abstract

Abstract Asymptomatic malaria can impact existing malaria control and elimination efforts around the world, particularly in Africa, where the majority of malaria cases and death occurs. This is a cross-sectional study aimed to determine the prevalence and predictors of asymptomatic malaria among migrant farmworkers from June to July 2020 in the Upper Awash Agro-industry, East Shewa zone, Oromia Regional State, Ethiopia. A total of 254 migrant farmworkers without signs and symptoms of malaria were enrolled. Data on socio-demographic characteristics and malaria prevention practices were obtained through a structured questionnaire. Venous blood samples were collected and diagnosed using microscopy, rapid diagnostic tests, and polymerase chain reaction (PCR). Data were coded, entered, and analyzed using SPSS version-21 statistical software. Multivariable logistic regression was used to assess associated factors. A p

Published

2024

9. Asymptomatic malaria and predictors among migrant farmworkers East Shewa zone Oromia Ethiopia.

Author

Legesse, Gudeta, Tafesse, Weynshet, Kenea, Dagaga, Subussa, Bereket Wake, Alemayehu, Gezahegn Solomon, Kebede, Tadesse, Golassa, Lemu, Ali, Musa Mohammed, and Hailu, Asrat

Subjects

*MALARIA, *RAPID diagnostic tests, *AGRICULTURAL laborers, *MIGRANT labor, *MALARIA prevention, *POLYMERASE chain reaction

Abstract

Asymptomatic malaria can impact existing malaria control and elimination efforts around the world, particularly in Africa, where the majority of malaria cases and death occurs. This is a cross-sectional study aimed to determine the prevalence and predictors of asymptomatic malaria among migrant farmworkers from June to July 2020 in the Upper Awash Agro-industry, East Shewa zone, Oromia Regional State, Ethiopia. A total of 254 migrant farmworkers without signs and symptoms of malaria were enrolled. Data on socio-demographic characteristics and malaria prevention practices were obtained through a structured questionnaire. Venous blood samples were collected and diagnosed using microscopy, rapid diagnostic tests, and polymerase chain reaction (PCR). Data were coded, entered, and analyzed using SPSS version-21 statistical software. Multivariable logistic regression was used to assess associated factors. A p < 0.05 was considered statistically significant. The overall prevalence of asymptomatic malaria among farmworkers in this study was 5.1% [95% CI 1.6, 6.7]. The proportions of Plasmodium falciparum was 90.0% (9/10) while it was 10.0% (1/10) for Plasmodium vivax. Out of the microscopy and/or RDT-confirmed malaria cases, (n = 9; 100%) were confirmed to be P. falciparum by nested PCR, while (n = 3/122; 2.46%) were found to be P. falciparum among 50% negative cases with the microscopy and/or RDT. The gametocyte stage was detected in 40% of microscopically positive cases out of which 44.4% belongs to P. falciparum. Home area/origin of migrant laborers [AOR = 6.08, (95% CI 1.08, 34.66)], family history of malaria [AOR = 8.15, (95% CI 1.43, 46.44)], and outdoor sleeping [AOR = 10.14, (95% CI 1.15, 89.14)] were significantly associated with asymptomatic malaria. In conclusion, asymptomatic malaria was detected among farmworkers in the study area and it was significantly associated with outdoor sleeping, home area, and family history of malaria. Prevention tools and control strategies, particularly focusing on migrant farmworkers, should be considered to support the ongoing malaria control and elimination effort in Ethiopia. [ABSTRACT FROM AUTHOR]

Published

2024

10. Exploring the naturally acquired response to Pvs47 gametocyte antigen

Author

Gisele Tatiane Soares da Veiga, Rafael Amaral Donassolo, Sofia Forcellini, Julia Weber Ferraboli, Mario Antonio Kujbida Junior, Líndice Mitie Nisimura, Letícia Werzel Bassai, Rafael Luis Kessler, Mariana Serpeloni, Najara Carneiro Bittencourt, Yanka Evellyn Alves R. Salazar, Luiz Felipe Ferreira Guimarães, Jaime Louzada, Dayanne Kamylla Alves da Silva Barros, Stefanie Costa Pinto Lopes, Luzia Helena Carvalho, Tais Nóbrega de Sousa, Flora Satiko Kano, Fabio Trindade Maranhão Costa, Pryscilla Fanini Wowk, and Letusa Albrecht

Subjects

antigenicity, Pvs47, gametocyte, transmission blocking vaccine, Plasmodium vivax, malaria, Immunologic diseases. Allergy, RC581-607

Abstract

Malaria represents a challenging global public health task, with Plasmodium vivax being the predominant parasite in Brazil and the most widely distributed species throughout the world. Developing a vaccine against P. vivax malaria demands innovative strategies, and targeting gametocyte antigens shows promise for blocking transmission prevention. Among these antigens, Pvs47, expressed in gametocytes, has shown remarkable efficacy in transmission blocking. However, remains underexplored in vaccine formulations. This study employed in silico methods to comprehensively characterize the physicochemical properties, structural attributes, epitope presence, and conservation profile of Pvs47. Additionally, we assessed its antigenicity in individuals exposed to malaria in endemic Brazilian regions. Recombinant protein expression occurred in a eukaryotic system, and antigenicity was evaluated using immunoenzymatic assays. The responses of naturally acquired IgM, total IgG, and IgG subclasses were analyzed in three groups of samples from Amazon region. Notably, all samples exhibited anti-Pvs47 IgM and IgG antibodies, with IgG3 predominating. Asymptomatic patients demonstrated stronger IgG responses and more diverse subclass responses. Anti-Pvs47 IgM and IgG responses in symptomatic individuals decrease over time. Furthermore, we observed a negative correlation between anti-Pvs47 IgM response and gametocytemia in samples of symptomatic patients, indicating a gametocyte-specific response. Additionally, negative correlation was observed among anti-Pvs47 antibody response and hematocrit levels. Furthermore, comparative analysis with widely characterized blood antigens, PvAMA1 and PvMSP119, revealed that Pvs47 was equally or more recognized than both proteins. In addition, there is positive correlation between P. vivax blood asexual and sexual stage immune responses. In summary, our study unveils a significant prevalence of anti-Pvs47 antibodies in diverse Amazonian samples and the importance of IgM response for gametocytes depuration. These findings regarding the in silico characterization and antigenicity of Pvs47 provide crucial insights for potential integration into P. vivax vaccine formulations.

Published

2024

11. Disruption of a Plasmodium falciparum patatin‐like phospholipase delays male gametocyte exflagellation.

Author

Pietsch, Emma, Niedermüller, Korbinian, Andrews, Mia, Meyer, Britta S., Lenz, Tobias L., Wilson, Danny W., Gilberger, Tim‐Wolf, and Burda, Paul‐Christian

Subjects

*PLASMODIUM falciparum, *OVUM, *LIFE cycles (Biology), *ERYTHROCYTES, *PLASMODIUM

Abstract

An essential process in transmission of the malaria parasite to the Anopheles vector is the conversion of mature gametocytes into gametes within the mosquito gut, where they egress from the red blood cell (RBC). During egress, male gametocytes undergo exflagellation, leading to the formation of eight haploid motile microgametes, while female gametes retain their spherical shape. Gametocyte egress depends on sequential disruption of the parasitophorous vacuole membrane and the host cell membrane. In other life cycle stages of the malaria parasite, phospholipases have been implicated in membrane disruption processes during egress, however their importance for gametocyte egress is relatively unknown. Here, we performed comprehensive functional analyses of six putative phospholipases for their role during development and egress of Plasmodium falciparum gametocytes. We localize two of them, the prodrug activation and resistance esterase (PF3D7_0709700) and the lysophospholipase 1 (PF3D7_1476700), to the parasite plasma membrane. Subsequently, we show that disruption of most of the studied phospholipase genes does neither affect gametocyte development nor egress. The exception is the putative patatin‐like phospholipase 3 (PF3D7_0924000), whose gene deletion leads to a delay in male gametocyte exflagellation, indicating an important, albeit not essential, role of this enzyme in male gametogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparative proteomics of vesicles essential for the egress of Plasmodium falciparum gametocytes from red blood cells.

Author

Sassmannshausen, Juliane, Bennink, Sandra, Distler, Ute, Küchenhoff, Juliane, Minns, Allen M., Lindner, Scott E., Burda, Paul‐Christian, Tenzer, Stefan, Gilberger, Tim W., and Pradel, Gabriele

Subjects

*ERYTHROCYTES, *GERM cells, *PLASMODIUM falciparum, *LEPTIN, *PROTEOMICS, *ERYTHROCYTE membranes

Abstract

Transmission of malaria parasites to the mosquito is mediated by sexual precursor cells, the gametocytes. Upon entering the mosquito midgut, the gametocytes egress from the enveloping erythrocyte while passing through gametogenesis. Egress follows an inside‐out mode during which the membrane of the parasitophorous vacuole (PV) ruptures prior to the erythrocyte membrane. Membrane rupture requires exocytosis of specialized egress vesicles of the parasites; that is, osmiophilic bodies (OBs) involved in rupturing the PV membrane, and vesicles that harbor the perforin‐like protein PPLP2 (here termed P‐EVs) required for erythrocyte lysis. While some OB proteins have been identified, like G377 and MDV1/Peg3, the majority of egress vesicle‐resident proteins is yet unknown. Here, we used high‐resolution imaging and BioID methods to study the two egress vesicle types in Plasmodium falciparum gametocytes. We show that OB exocytosis precedes discharge of the P‐EVs and that exocytosis of the P‐EVs, but not of the OBs, is calcium sensitive. Both vesicle types exhibit distinct proteomes with the majority of proteins located in the OBs. In addition to known egress‐related proteins, we identified novel components of OBs and P‐EVs, including vesicle‐trafficking proteins. Our data provide insight into the immense molecular machinery required for the inside‐out egress of P. falciparum gametocytes. [ABSTRACT FROM AUTHOR]

Published

2024

13. The Multiple Roles of LCCL Domain-Containing Proteins for Malaria Parasite Transmission.

Author

Bennink, Sandra and Pradel, Gabriele

Subjects

PLASMODIUM, MOSQUITO vectors, PROTEINS, PROTEIN synthesis, SPOROZOITES

Abstract

Multi-protein complexes are crucial for various essential biological processes of the malaria parasite Plasmodium, such as protein synthesis, host cell invasion and adhesion. Especially during the sexual phase of the parasite, which takes place in the midgut of the mosquito vector, protein complexes are required for fertilization, sporulation and ultimately for the successful transmission of the parasite. Among the most noticeable protein complexes of the transmission stages are the ones formed by the LCCL domain-containing protein family that play critical roles in the generation of infective sporozoites. The six members of this protein family are characterized by numerous adhesive modules and domains typically found in secreted proteins. This review summarizes the findings of expression and functional studies on the LCCL domain-containing proteins of the human pathogenic P. falciparum and the rodent-infecting P. berghei and discusses the common features and differences of the homologous proteins. [ABSTRACT FROM AUTHOR]

Published

2024

14. Monitoring the density of Plasmodium spp. gametocytes in isolates from patient samples in the region of Porto Velho, Rondônia.

Author

do Nascimento Martinez, Leandro, Silva, Deyse Conrado, Brilhante-da-Silva, Nairo, da Silva Rodrigues, Francisco Lurdevanhe, de Lima, Alzemar Alves, Tada, Mauro Shugiro, and Costa, Joana D.'Arc Neves

Subjects

*PLASMODIUM, *GERM cells, *PLASMODIUM vivax, *MOSQUITO vectors, *PLASMODIUM falciparum, *TROPICAL medicine, *DENSITY

Abstract

Gametocytes are the forms of the malaria parasite that are essential for the continuation of the transmission cycle to the vector Anopheles. This study aimed to evaluate the parasite density of Plasmodium spp gametocytes in samples from patients in the region of Porto Velho, Rondônia. Slides containing patient samples were selected from users who sought out care at the Center for Research in Tropical Medicine (CEPEM) during the period from January to December 2016. Samples of Plasmodium vivax and Plasmodium falciparum were selected for analysis of their respective gametocytes. In parallel, monitoring was performed in cultures of NF54 strain P. falciparum gametocytes. Of 248 thick smear slides (EG) evaluated in double blind, 142 (57.2%) were detected with P. vivax, of this total 47 (18.9%) had gametocytes, 1 (0.4%) with LVC negative diagnosis for gametocytes and 1 (0.4%) Pv + Pf (mixed malaria). Regarding P. falciparum, the total number of samples analyzed was 106 (42.7%), of which 20 (8.0%) had gametocytes detected, 6 (2.4%) LVC negative for gametocyte forms, and 3 (1.2%) Pv + Pf (mixed malaria), Plasmodium malariae species was not detected among the samples. The results showed that P. vivax gametocytes were present in the first days of symptoms, with a higher prevalence in patients with two crosses, a fact that was also observed in patients with P. falciparum regarding the prevalence of gametocytes. Faced with this problem, it is necessary to monitor the fluctuation of gametocytes, since these forms are responsible for continuing the malaria cycle within the mosquito vector. [ABSTRACT FROM AUTHOR]

Published

2023

15. Quantification of sporozoite expelling by Anopheles mosquitoes infected with laboratory and naturally circulating P. falciparum gametocytes

Author

Chiara Andolina, Wouter Graumans, Moussa Guelbeogo, Geert-Jan van Gemert, Jordache Ramijth, Soré Harouna, Zongo Soumanaba, Rianne Stoter, Marga Vegte-Bolmer, Martina Pangos, Photini Sinnis, Katharine Collins, Sarah G Staedke, Alfred B Tiono, Chris Drakeley, Kjerstin Lanke, and Teun Bousema

Subjects

gametocyte, sporozoite, anopheles, sporogony, expelling, Medicine, Science, Biology (General), QH301-705.5

Abstract

It is currently unknown whether all Plasmodium falciparum-infected mosquitoes are equally infectious. We assessed sporogonic development using cultured gametocytes in the Netherlands and naturally circulating strains in Burkina Faso. We quantified the number of sporozoites expelled into artificial skin in relation to intact oocysts, ruptured oocysts, and residual salivary gland sporozoites. In laboratory conditions, higher total sporozoite burden was associated with shorter duration of sporogony (p

Published

2024

16. Gametocyte prevalence and risk factors of P. falciparum malaria patients admitted at the Hospital for Tropical Diseases, Thailand: a 20-year retrospective study

Author

Panita Looareesuwan, Srivicha Krudsood, Saranath Lawpoolsri, Noppadon Tangpukdee, Wasin Matsee, Wang Nguitragool, and Polrat Wilairatana

Subjects

Malaria, Plasmodium falciparum, Gametocyte, Risk factors, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The incidence of malaria in Thailand has dramatically declined over the past two decades, and the goal is to eliminate malaria by 2025. Despite significant progress, one of the key challenges to malaria elimination are undetected gametocyte carriers. Human migration adds complexity to the malaria situation, as it not only sustains local transmission but also poses the risk of spreading drug-resistant parasites. Currently, no study has assessed the prevalence of gametocytes across multiple years in Plasmodium falciparum malaria patients in Thailand, and the risk factors for gametocyte carriage have not been fully explored. Methods Medical records of all P. falciparum malaria patients admitted from January 1, 2001 to December 31, 2020 at the Hospital for Tropical Diseases, Thailand, were retrospectively examined and a total of 1962 records were included for analysis. Both P. falciparum parasites and gametocytes were diagnosed by microscopy. A regression model was used to evaluate predictors of gametocyte carriage. Results The study demonstrated gametocyte prevalence in low malaria transmission areas. Nine risk factors for gametocyte carriage were identified: age between 15 and 24 years [adjusted odds ratio (aOR) = 1.96, 95% confidence interval (CI) 1.18−3.26], Karen ethnicity (aOR = 2.59, 95% CI 1.56−4.29), preadmission duration of fever > 7 days (aOR = 5.40, 95% CI 3.92−7.41), fever on admission (> 37.5 °C) (aOR = 0.61, 95% CI 0.48−0.77), haemoglobin ≤ 8 g/dL (aOR = 3.32, 95% CI 2.06−5.33), asexual parasite density > 5000−25,000/µL (aOR = 0.71, 95% CI 0.52−0.98), asexual parasite density > 25,000−100,000/µL (aOR = 0.74, 95% CI 0.53−1.03), asexual parasite density > 100,000/µL (aOR = 0.51, 95% CI 0.36−0.72), platelet count ≤ 100,000/µL (aOR = 0.65, 95% CI 0.50−0.85, clinical features of severe malaria (aOR = 2.33, 95% CI 1.76−3.10) and dry season (aOR = 1.41, 95% CI 1.10−1.80). An increasing incidence of imported transnational malaria cases was observed over the past two decades. Conclusions This is the first study to determine the prevalence of gametocytes among patients with symptomatic P. falciparum malaria, identify the risk factors for gametocyte carriage, and potential gametocyte carriers in Thailand. Blocking transmission is one of the key strategies for eliminating malaria in these areas. The results might provide important information for targeting gametocyte carriers and improving the allocation of resources for malaria control in Thailand. This study supports the already nationally recommended use of a single dose of primaquine in symptomatic P. falciparum malaria patients to clear gametocytes. Graphical Abstract

Published

2023

17. Coordinated regulation of gene expression in Plasmodium female gametocytes by two transcription factors

Author

Yuho Murata, Tsubasa Nishi, Izumi Kaneko, Shiroh Iwanaga, and Masao Yuda

Subjects

Plasmodium berghei, gametocyte, female, transcription factor, Medicine, Science, Biology (General), QH301-705.5

Abstract

Gametocytes play key roles in the Plasmodium lifecycle. They are essential for sexual reproduction as precursors of the gametes. They also play an essential role in parasite transmission to mosquitoes. Elucidation of the gene regulation at this stage is essential for understanding these two processes at the molecular level and for developing new strategies to break the parasite lifecycle. We identified a novel Plasmodium transcription factor (TF), designated as a partner of AP2-FG or PFG. In this article, we report that this TF regulates the gene expression in female gametocytes in concert with another female-specific TF AP2-FG. Upon the disruption of PFG, majority of female-specific genes were significantly downregulated, and female gametocyte lost the ability to produce ookinetes. ChIP-seq analysis showed that it was located in the same position as AP2-FG, indicating that these two TFs form a complex. ChIP-seq analysis of PFG in AP2-FG-disrupted parasites and ChIP-seq analysis of AP2-FG in PFG-disrupted parasites demonstrated that PFG mediates the binding of AP2-FG to a ten-base motif and that AP2-FG binds another motif, GCTCA, in the absence of PFG. In promoter assays, this five-base motif was identified as another female-specific cis-acting element. Genes under the control of the two forms of AP2-FG, with or without PFG, partly overlapped; however, each form had target preferences. These results suggested that combinations of these two forms generate various expression patterns among the extensive genes expressed in female gametocytes.

Published

2024

18. Gametocyte prevalence and risk factors of P. falciparum malaria patients admitted at the Hospital for Tropical Diseases, Thailand: a 20-year retrospective study.

Author

Looareesuwan, Panita, Krudsood, Srivicha, Lawpoolsri, Saranath, Tangpukdee, Noppadon, Matsee, Wasin, Nguitragool, Wang, and Wilairatana, Polrat

Subjects

*MALARIA, *TROPICAL medicine, *HOSPITAL patients, *PLATELET count, *HUMAN migrations

Abstract

Background: The incidence of malaria in Thailand has dramatically declined over the past two decades, and the goal is to eliminate malaria by 2025. Despite significant progress, one of the key challenges to malaria elimination are undetected gametocyte carriers. Human migration adds complexity to the malaria situation, as it not only sustains local transmission but also poses the risk of spreading drug-resistant parasites. Currently, no study has assessed the prevalence of gametocytes across multiple years in Plasmodium falciparum malaria patients in Thailand, and the risk factors for gametocyte carriage have not been fully explored. Methods: Medical records of all P. falciparum malaria patients admitted from January 1, 2001 to December 31, 2020 at the Hospital for Tropical Diseases, Thailand, were retrospectively examined and a total of 1962 records were included for analysis. Both P. falciparum parasites and gametocytes were diagnosed by microscopy. A regression model was used to evaluate predictors of gametocyte carriage. Results: The study demonstrated gametocyte prevalence in low malaria transmission areas. Nine risk factors for gametocyte carriage were identified: age between 15 and 24 years [adjusted odds ratio (aOR) = 1.96, 95% confidence interval (CI) 1.18−3.26], Karen ethnicity (aOR = 2.59, 95% CI 1.56−4.29), preadmission duration of fever > 7 days (aOR = 5.40, 95% CI 3.92−7.41), fever on admission (> 37.5 °C) (aOR = 0.61, 95% CI 0.48−0.77), haemoglobin ≤ 8 g/dL (aOR = 3.32, 95% CI 2.06−5.33), asexual parasite density > 5000−25,000/µL (aOR = 0.71, 95% CI 0.52−0.98), asexual parasite density > 25,000−100,000/µL (aOR = 0.74, 95% CI 0.53−1.03), asexual parasite density > 100,000/µL (aOR = 0.51, 95% CI 0.36−0.72), platelet count ≤ 100,000/µL (aOR = 0.65, 95% CI 0.50−0.85, clinical features of severe malaria (aOR = 2.33, 95% CI 1.76−3.10) and dry season (aOR = 1.41, 95% CI 1.10−1.80). An increasing incidence of imported transnational malaria cases was observed over the past two decades. Conclusions: This is the first study to determine the prevalence of gametocytes among patients with symptomatic P. falciparum malaria, identify the risk factors for gametocyte carriage, and potential gametocyte carriers in Thailand. Blocking transmission is one of the key strategies for eliminating malaria in these areas. The results might provide important information for targeting gametocyte carriers and improving the allocation of resources for malaria control in Thailand. This study supports the already nationally recommended use of a single dose of primaquine in symptomatic P. falciparum malaria patients to clear gametocytes. [ABSTRACT FROM AUTHOR]

Published

2023

19. Transcriptomic approaches for identifying potential transmission blocking vaccine candidates in Plasmodium falciparum: a review of current knowledge and future directions.

Author

Varijakshi, Gutthedhar, Divya, Mallya, Ware, Akshay Pramod, Paul, Bobby, and Saadi, Abdul Vahab

Subjects

*PLASMODIUM, *PLASMODIUM falciparum, *TRANSCRIPTOMES, *MOSQUITO vectors, *VACCINE development, *VACCINES

Abstract

Utilizing transcriptomics, promising methods for identifying unique genes associated with Plasmodium gametocyte development offer a potential avenue for novel candidate targets in transmission blocking vaccine development. In this review, we identified 40 publicly available transcriptomic datasets related to parasite factors linked with sexual stage transmission, from which we analyzed two RNA-Seq datasets to identify potential genes crucial for the transmission of P. falciparum from humans to mosquito vectors. Differential expression analysis revealed 3500 (2489 upregulated and 1011 downregulated) common genes differentially expressed throughout sexual stage development of P. falciparum occurring in both humans (gametocyte stage II, V) and mosquitoes (ookinete). Among which 1283 (914 upregulated and 369 downregulated) and 826 (719 upregulated and 107 downregulated) genes were specific to female and male gametocytes, respectively. Also, 830 potential transition associated genes were identified that may be involved in the adaptation and survival of the parasite in between human and mosquito stages. Additionally, we reviewed the functional aspects of important genes highly expressed throughout the sexual stage pathway and evaluated their suitability as vaccine candidates. The review provides researchers with insight into the importance of publicly available transcriptomic datasets for identifying critical and novel gametocyte markers that may aid in the development of rational transmission blocking strategies. [ABSTRACT FROM AUTHOR]

Published

2023

20. Anti-malarial activity of the alkaloid, heptaphylline, and the furanocoumarin, imperatorin, from Clausena anisata against human Plasmodium falciparum malaria parasites: ex vivo trophozoitocidal, schizonticidal and gametocytocidal approach.

Author

Kumatia, Emmanuel Kofi, Zoiku, Felix Kwame, Asase, Alex, and Tung, Nguyen Huu

Subjects

*PLASMODIUM falciparum, *PLASMODIUM, *ANTIMALARIALS, *PARASITE life cycles, *ALKALOIDS

Abstract

Background: The erythrocytic stage of the life cycle of the malaria parasite, Plasmodium falciparum, consists of trophozoite, schizont and gametocyte stages in humans. Various anti-malarial agents target different stages of the parasite to produce treatment outcomes. This study reports on the stage-specific anti-malarial activity of heptaphylline and imperatorin against human P. falciparum in addition to their cytotoxicity and selectivity indices (SI). Methods: The compounds were isolated from Clausena anisata using column chromatography and their structures elucidated using NMR spectroscopy. The anti-malarial activity was determined by measuring the trophozoitocidal, schizonticidal and gametocytocidal activities of the compounds using the SYBR green assay. Cytotoxicity was evaluated using the tetrazolium-based colorimetric assay. Results: Heptaphylline and imperatorin produced trophozoitocidal, schizonticidal and gametocytocidal activities with IC50s of 1.57 (0.2317)–26.92 (0.3144) µM with those of artesunate (the standard drug) being 0.00024 (0.0036)–0.0070 (0.0013) µM. In the cytotoxicity assay, the compounds produced CC50S greater than 350 µM and SI of 13.76–235.90. Also, the trophozoitocidal and schizonticidal activities of the compounds were more pronounced than their gametocytocidal activity. Imperatorin was 42.04% more trophozoitocidal than hepthaphyline. However, hepthaphyline has more schizonticidal and gametocytocidal properties than imperatorin. Conclusion: Heptaphylline and imperatorin are promising anti-malarial agents, since they possess potent anti-malarial activity with weak cytotoxicity on RBCs. However, imperatorin is a better anti-malarial prophylactic agent whereas heptaphylline is a better malaria treatment agent. [ABSTRACT FROM AUTHOR]

Published

2023

21. Identification of gametocyte-associated pir genes in the rodent malaria parasite, Plasmodium chabaudi chabaudi AS

Author

Deirdre A. Cunningham, Adam J. Reid, Caroline Hosking, Katrien Deroost, Irene Tumwine-Downey, Mandy Sanders, and Jean Langhorne

Subjects

Multigene family, Pir, Transcriptome, Gametocyte, Plasmodium chabaudi, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective To analyse the transcriptional profiles of the pir multigene family of Plasmodium chabaudi chabaudi in male and female gametocytes isolated from the blood of infected mice. Results Infected red blood cells containing female and male P. chabaudi gametocytes transcribe a distinct set of genes encoded by the multigene family pir. The overall patterns are similar to what has been observed in the close relative P. berghei, but here we show that gametocyte-associated pir genes are distinct from those involved in chronic blood-stage infection and highlight a male-associated pir gene which should be the focus of future studies.

Published

2023

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

Author

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

Subjects

Asymptomatic, Gametocyte, Plasmodium falciparum, Season, Transmission, Microbiology, Clinical Sciences, Medical Microbiology

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  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

23. Transmission efficiency of Plasmodium vivax at low parasitaemia

Author

Thitiporn Surit, Piyarat Sripoorote, Chalermpon Kumpitak, Chayanut Suansomjit, Nongnuj Maneechai, Liwang Cui, Jetsumon Sattabongkot, Wanlapa Roobsoong, and Wang Nguitragool

Subjects

Plasmodium vivax, Transmission, Infectivity, Gametocyte, Malaria, Anopheles, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Plasmodium vivax is responsible for much of malaria outside Africa. Although most P. vivax infections in endemic areas are asymptomatic and have low parasite densities, they are considered a potentially important source of transmission. Several studies have demonstrated that asymptomatic P. vivax carriers can transmit the parasite to mosquitoes, but the efficiency has not been well quantified. The aim of this study is to determine the relationship between parasite density and mosquito infectivity, particularly at low parasitaemia. Methods Membrane feeding assays were performed using serial dilutions of P. vivax-infected blood to define the relationship between parasitaemia and mosquito infectivity. Results The infection rate (oocyst prevalence) and intensity (oocyst load) were positively correlated with the parasite density in the blood. There was a broad case-to-case variation in parasite infectivity. The geometric mean parasite density yielding a 10% mosquito infection rate was 33 (CI 95 9–120) parasites/µl or 4 (CI 95 1–17) gametocytes/µl. The geometric mean parasite density yielding a 50% mosquito infection rate was 146 (CI 95 36–586) parasites/µl or 13 (CI 95 3–49) gametocytes/µl. Conclusion This study quantified the ability of P. vivax to infect Anopheles dirus at over a broad range of parasite densities. It provides important information about parasite infectivity at low parasitaemia common among asymptomatic P. vivax carriers.

Published

2023

24. High-throughput analysis of the transcriptional patterns of sexual genes in malaria

Author

Abel Cruz Camacho, Edo Kiper, Sonia Oren, Nir Zaharoni, Netta Nir, Noam Soffer, Yael Noy, Bar Ben David, Anna Rivkin, Ron Rotkopf, Dan Michael, Teresa G. Carvalho, and Neta Regev-Rudzki

Subjects

Malaria, Gametocytogenesis, RT-qPCR, Gene expression, Plasmodium falciparum, Gametocyte, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Plasmodium falciparum (Pf) is the leading protozoan causing malaria, the most devastating parasitic disease. To ensure transmission, a small subset of Pf parasites differentiate into the sexual forms (gametocytes). Since the abundance of these essential parasitic forms is extremely low within the human host, little is currently known about the molecular regulation of their sexual differentiation, highlighting the need to develop tools to investigate Pf gene expression during this fundamental mechanism. Methods We developed a high-throughput quantitative Reverse-Transcription PCR (RT-qPCR) platform to robustly monitor Pf transcriptional patterns, in particular, systematically profiling the transcriptional pattern of a large panel of gametocyte-related genes (GRG). Initially, we evaluated the technical performance of the systematic RT-qPCR platform to ensure it complies with the accepted quality standards for: (i) RNA extraction, (ii) cDNA synthesis and (iii) evaluation of gene expression through RT-qPCR. We then used this approach to monitor alterations in gene expression of a panel of GRG upon treatment with gametocytogenesis regulators. Results We thoroughly elucidated GRG expression profiles under treatment with the antimalarial drug dihydroartemisinin (DHA) or the metabolite choline over the course of a Pf blood cycle (48 h). We demonstrate that both significantly alter the expression pattern of PfAP2-G, the gametocytogenesis master regulator. However, they also markedly modify the developmental rate of the parasites and thus might bias the mRNA expression. Additionally, we screened the effect of the metabolites lactate and kynurenic acid, abundant in severe malaria, as potential regulators of gametocytogenesis. Conclusions Our data demonstrate that the high-throughput RT-qPCR method enables studying the immediate transcriptional response initiating gametocytogenesis of the parasites from a very low volume of malaria-infected RBC samples. The obtained data expand the current knowledge of the initial alterations in mRNA profiles of GRG upon treatment with reported regulators. In addition, using this method emphasizes that asexual parasite stage composition is a crucial element that must be considered when interpreting changes in GRG expression by RT-qPCR, specifically when screening for novel compounds that could regulate Pf sexual differentiation. Graphical Abstract

Published

2023

25. Protocols for Plasmodium gametocyte production in vitro: an integrative review and analysis

Author

Roukayatou Omorou, Ibrahim Bin Sa’id, Michael Delves, Carlo Severini, Yobouet Ines Kouakou, Anne-Lise Bienvenu, and Stephane Picot

Subjects

Plasmodium spp, Malaria, Gametocyte, In vitro, Ex vivo, Protocols, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The production of Plasmodium gametocytes in vitro is a real challenge. Many protocols have been described, but few have resulted in the production of viable and infectious gametocytes in sufficient quantities to conduct research on—but not limited to—transmission-blocking drug and vaccine development. The aim of this review was to identify and discuss gametocyte production protocols that have been developed over the last two decades. Methods We analyzed the original gametocyte production protocols published from 2000 onwards based on a literature search and a thorough review. A systematic review was performed of relevant articles identified in the PubMed, Web of Sciences and ScienceDirect databases. Results A total 23 studies on the production of Plasmodium gametocytes were identified, 19 involving in vitro Plasmodium falciparum, one involving Plasmodium knowlesi and three involving ex vivo Plasmodium vivax. Of the in vitro studies, 90% used environmental stressors to trigger gametocytogenesis. Mature gametocytemia of up to 4% was reported. Conclusions Several biological parameters contribute to an optimal production in vitro of viable and infectious mature gametocytes. The knowledge gained from this systematic review on the molecular mechanisms involved in gametocytogenesis enables reproducible gametocyte protocols with transgenic parasite lines to be set up. This review highlights the need for additional gametocyte production protocols for Plasmodium species other than P. falciparum. Graphical abstract

Published

2022

26. The activity of methylene blue against asexual and sexual stages of Plasmodium vivax.

Author

Fabbri, Camila, Quaresma Ramos, Glenda, Baia-da-Silva, Djane Clarys, Oliveira Trindade, Alexandre, Salazar-Alvarez, Luis Carlos, Ferreira Neves, Juliana Costa, dos Santos Bastos, Ivanildes, Guimarães Costa, Allyson, Guimarães Lacerda, Marcus Vinicius, Marcelo Monteiro, Wuelton, Maranhão Costa, Fabio Trindade, and Costa Pinto Lopes, Stefanie

Subjects

PLASMODIUM vivax, MONONUCLEAR leukocytes, PLASMODIUM, METHYLENE blue

Abstract

Methylene blue (MB) is an alternative for combating drug-resistant malaria parasites. Its transmission-blocking potential has been demonstrated in vivo in murine models, in vitro, and in clinical trials. MB shows high efficacy against Plasmodium vivax asexual stages; however, its efficacy in sexual stages is unknown. In this study, we evaluated the potential of MB against asexual and sexual forms of P. vivax isolated from the blood of patients residing in the Brazilian Amazon. An ex vivo schizont maturation assay, zygote to ookinete transformation assay, direct membrane feed assay (DMFA), and standard membrane feed assay (SMFA) using P. vivax gametocytes with MB exposure were performed. A cytotoxicity assay was also performed on freshly collected peripheral blood mononuclear cells (PBMCs) and the hepatocyte carcinoma cell line HepG2. MB inhibited the P. vivax schizont maturation and demonstrated an IC50 lower than that of chloroquine (control drug). In the sexual forms, the MB demonstrated a high level of inhibition in the transformation of the zygotes into ookinetes. In the DMFA, MB did not considerably affect the infection rate and showed low inhibition, but it demonstrated a slight decrease in the infection intensity in all tested concentrations. In contrast, in the SMFA, MB was able to completely block the transmission at the highest concentration (20 μM). MB demonstrated low cytotoxicity to fresh PBMCs but demonstrated higher cytotoxicity to the hepatocyte carcinoma cell line HepG2. These results show that MB may be a potential drug for vivax malaria treatment. [ABSTRACT FROM AUTHOR]

Published

2023

27. Identification of gametocyte-associated pir genes in the rodent malaria parasite, Plasmodium chabaudi chabaudi AS.

Author

Cunningham, Deirdre A., Reid, Adam J., Hosking, Caroline, Deroost, Katrien, Tumwine-Downey, Irene, Sanders, Mandy, and Langhorne, Jean

Subjects

*PLASMODIUM, *ERYTHROCYTES, *GENES, *RODENTS, *GERM cells

Abstract

Objective: To analyse the transcriptional profiles of the pir multigene family of Plasmodium chabaudi chabaudi in male and female gametocytes isolated from the blood of infected mice. Results: Infected red blood cells containing female and male P. chabaudi gametocytes transcribe a distinct set of genes encoded by the multigene family pir. The overall patterns are similar to what has been observed in the close relative P. berghei, but here we show that gametocyte-associated pir genes are distinct from those involved in chronic blood-stage infection and highlight a male-associated pir gene which should be the focus of future studies. [ABSTRACT FROM AUTHOR]

Published

2023

28. The Multiple Roles of LCCL Domain-Containing Proteins for Malaria Parasite Transmission

Author

Sandra Bennink and Gabriele Pradel

Subjects

malaria, Plasmodium, protein–protein interaction, transmission, multi-protein complex, gametocyte, Biology (General), QH301-705.5

Abstract

Multi-protein complexes are crucial for various essential biological processes of the malaria parasite Plasmodium, such as protein synthesis, host cell invasion and adhesion. Especially during the sexual phase of the parasite, which takes place in the midgut of the mosquito vector, protein complexes are required for fertilization, sporulation and ultimately for the successful transmission of the parasite. Among the most noticeable protein complexes of the transmission stages are the ones formed by the LCCL domain-containing protein family that play critical roles in the generation of infective sporozoites. The six members of this protein family are characterized by numerous adhesive modules and domains typically found in secreted proteins. This review summarizes the findings of expression and functional studies on the LCCL domain-containing proteins of the human pathogenic P. falciparum and the rodent-infecting P. berghei and discusses the common features and differences of the homologous proteins.

Published

2024

29. Biology and epidemiology of Plasmodium falciparum and Plasmodium vivax gametocyte carriage: Implication for malaria control and elimination

Author

Aklilu Alemayehu

Subjects

Gametocyte, Transmission, Plasmodium, Malaria Elimination, Epidemiology, Infectious and parasitic diseases, RC109-216

Abstract

Malaria is among the leading public health problems worldwide. Female anopheles mosquito orchestrates the transmission of malaria by taking gametocytes and introducing sporozoite while taking blood meals. Interrupting transmission is the major strategy for malaria elimination. The gametocyte stage is essential for the onward transmission of malaria. Thus, understanding its basic biology and epidemiology is key to malaria control and elimination. Therefore, the current review focuses on revealing the biology, prevalence, and determinants of gametocyte carriage as well as its implication on mitigation of malaria. It also illustrates the role of asymptomatic and sub-microscopic Plasmodium infections and G-6-PD deficiency in gametocyte carriage and hence malaria transmission.Gametocytogenesis is initiated at committed merozoites and gives rise to the development of gametocytes. The trigger for gametocytogenesis depends on the host, parasite, and intervention factors. Gametocytes pass through five developmental stages identifiable by molecular markers. A considerable number of malaria patients carry gametocytes at a sub-microscopic level, thereby serving as a potential infectious reservoir of transmission. Factors involving the human host, Plasmodium parasite, and intervention parameters play a critical role in gametocyte biology and prevalence.The contribution of asymptomatic and sub-microscopic infections to malaria transmission is unknown. The clear impact of G-6-PD deficiency on malaria control and elimination remains unclear. Lack of clarity on such issues might impede the success of interventions. Basic science and epidemiological studies should continue to overcome the challenges and cope with the ever-evolving parasite and guide interventions.

Published

2023

30. Asymptomatic Plasmodium infection among primary schoolchildren and Anopheles-mediated malaria transmission: A cross-sectional study in Ouidah; south-western Benin

Author

Adandé A. Medjigbodo, Laurette Djossou, Constantin J. Adoha, Oswald Y. Djihinto, Aurore Ogouyemi-Hounto, Martin J. Donnelly, David Weetman, and Luc S. Djogbénou

Subjects

Asymptomatic, Plasmodium falciparum, Gametocyte, An. gambiae, Transmission, Infectious and parasitic diseases, RC109-216

Abstract

Understanding the contribution of asymptomatic Plasmodium carriers in malaria transmission might be helpful to design and implement new control measures. The present study explored the prevalence of asymptomatic and symptomatic Plasmodium infections (asexual and sexual stages) and the contribution of asymptomatic P. falciparum carriers to Anopheles-mediated malaria transmission in Ouidah (Benin). Thick and thin blood smears were examined from finger-prick blood specimens using light microscopy, and the density of both asexual and sexual stages of Plasmodium species was calculated. Infectivity of gametocyte-infected blood samples to Anopheles gambiae was assessed through direct membrane feeding assays. The prevalence of asymptomatic Plasmodium infections was 28.73% (289/1006). All the asymptomatic gametocyte-carriers (19/19), with gametocytaemia ranging from 10 ̶ 1200 gametocytes/μL of blood, were infectious to An. gambiae mosquitoes. The mean oocyst prevalences varied significantly (χ2 = 16.42, df = 7, p = 0.02) among laboratory mosquito strains (6.9 ̶ 39.4%) and near-field mosquitoes (4.9 ̶ 27.2%). Likewise, significant variation (χ2 = 56.85, df = 7, p = 6.39 × 10−10) was observed in oocyst intensity. Our findings indicate that asymptomatic Plasmodium carriers could significantly contribute to malaria transmission. Overall, this study highlights the importance of diagnosing and treating asymptomatic and symptomatic infection carriers during malaria control programmes.

Published

2023

31. The activity of methylene blue against asexual and sexual stages of Plasmodium vivax

Author

Camila Fabbri, Glenda Quaresma Ramos, Djane Clarys Baia-da-Silva, Alexandre Oliveira Trindade, Luis Carlos Salazar-Alvarez, Juliana Costa Ferreira Neves, Ivanildes dos Santos Bastos, Allyson Guimarães Costa, Marcus Vinicius Guimarães Lacerda, Wuelton Marcelo Monteiro, Fabio Trindade Maranhão Costa, and Stefanie Costa Pinto Lopes

Subjects

gametocyte, ookinete, malaria, transmission-blocking, antimalarial drug, Microbiology, QR1-502

Abstract

Methylene blue (MB) is an alternative for combating drug-resistant malaria parasites. Its transmission-blocking potential has been demonstrated in vivo in murine models, in vitro, and in clinical trials. MB shows high efficacy against Plasmodium vivax asexual stages; however, its efficacy in sexual stages is unknown. In this study, we evaluated the potential of MB against asexual and sexual forms of P. vivax isolated from the blood of patients residing in the Brazilian Amazon. An ex vivo schizont maturation assay, zygote to ookinete transformation assay, direct membrane feed assay (DMFA), and standard membrane feed assay (SMFA) using P. vivax gametocytes with MB exposure were performed. A cytotoxicity assay was also performed on freshly collected peripheral blood mononuclear cells (PBMCs) and the hepatocyte carcinoma cell line HepG2. MB inhibited the P. vivax schizont maturation and demonstrated an IC50 lower than that of chloroquine (control drug). In the sexual forms, the MB demonstrated a high level of inhibition in the transformation of the zygotes into ookinetes. In the DMFA, MB did not considerably affect the infection rate and showed low inhibition, but it demonstrated a slight decrease in the infection intensity in all tested concentrations. In contrast, in the SMFA, MB was able to completely block the transmission at the highest concentration (20 µM). MB demonstrated low cytotoxicity to fresh PBMCs but demonstrated higher cytotoxicity to the hepatocyte carcinoma cell line HepG2. These results show that MB may be a potential drug for vivax malaria treatment.

Published

2023

32. Transmission efficiency of Plasmodium vivax at low parasitaemia.

Author

Surit, Thitiporn, Sripoorote, Piyarat, Kumpitak, Chalermpon, Suansomjit, Chayanut, Maneechai, Nongnuj, Cui, Liwang, Sattabongkot, Jetsumon, Roobsoong, Wanlapa, and Nguitragool, Wang

Subjects

*PLASMODIUM vivax, *ENDEMIC diseases, *BLOOD parasites, *ANOPHELES, *MOSQUITOES

Abstract

Background: Plasmodium vivax is responsible for much of malaria outside Africa. Although most P. vivax infections in endemic areas are asymptomatic and have low parasite densities, they are considered a potentially important source of transmission. Several studies have demonstrated that asymptomatic P. vivax carriers can transmit the parasite to mosquitoes, but the efficiency has not been well quantified. The aim of this study is to determine the relationship between parasite density and mosquito infectivity, particularly at low parasitaemia. Methods: Membrane feeding assays were performed using serial dilutions of P. vivax-infected blood to define the relationship between parasitaemia and mosquito infectivity. Results: The infection rate (oocyst prevalence) and intensity (oocyst load) were positively correlated with the parasite density in the blood. There was a broad case-to-case variation in parasite infectivity. The geometric mean parasite density yielding a 10% mosquito infection rate was 33 (CI 95 9–120) parasites/µl or 4 (CI 95 1–17) gametocytes/µl. The geometric mean parasite density yielding a 50% mosquito infection rate was 146 (CI 95 36–586) parasites/µl or 13 (CI 95 3–49) gametocytes/µl. Conclusion: This study quantified the ability of P. vivax to infect Anopheles dirus at over a broad range of parasite densities. It provides important information about parasite infectivity at low parasitaemia common among asymptomatic P. vivax carriers. [ABSTRACT FROM AUTHOR]

Published

2023

33. Naturally acquired antibodies to gametocyte antigens are associated with reduced transmission of Plasmodium vivax gametocytes to Anopheles arabiensis mosquitoes.

Author

Tebeje, Surafel K., Chali, Wakweya, Hailemeskel, Elifaged, Ramjith, Jordache, Gashaw, Abrham, Ashine, Temesgen, Nebret, Desalegn, Esayas, Endashaw, Emiru, Tadele, Tsegaye, Tizita, Teelen, Karina, Lanke, Kjerstin, Takashima, Eizo, Tsuboi, Takafumi, Salinas, Nichole D., Tolia, Niraj H., Narum, David, Drakeley, Chris, Witkowski, Benoit, and Vantaux, Amelie

Abstract

Naturally acquired antibodies may reduce the transmission of Plasmodium gametocytes to mosquitoes. Here, we investigated associations between antibody prevalence and P. vivax infectivity to mosquitoes. A total of 368 microscopy confirmed P. vivax symptomatic patients were passively recruited from health centers in Ethiopia and supplemented with 56 observations from asymptomatic P. vivax parasite carriers. Direct membrane feeding assays (DMFA) were performed to assess mosquito infectivity; for selected feeds these experiments were also performed after replacing autologous plasma with malaria naïve control serum (n=61). The prevalence of antibodies against 6 sexual stage antigens (Pvs47, Pvs48/45, Pvs230, PvsHAP2, Pvs25 and PvCelTOS) and an array of asexual antigens was determined by ELISA and multiplexed beadbased assays. Gametocyte (r< 0.42; p = 0.0001) and parasite (r = 0.21; p = 0.0001) densities were positively associated with mosquito infection rates. Antibodies against Pvs47, Pvs230 and Pvs25 were associated with 23 and 34% reductions in mosquito infection rates (p<0.0001), respectively. Individuals who showed evidence of transmission blockade in serum-replacement DMFAs (n=8) were significantly more likely to have PvsHAP2 or Pvs47 antibodies. Further studies may demonstrate causality for the observed associations, improve our understanding of the natural transmission of P. vivax and support vaccine development. [ABSTRACT FROM AUTHOR]

Published

2023

34. High-throughput analysis of the transcriptional patterns of sexual genes in malaria.

Author

Camacho, Abel Cruz, Kiper, Edo, Oren, Sonia, Zaharoni, Nir, Nir, Netta, Sofer, Noam, Noy, Yael, David, Bar Ben, Rivkin, Anna, Rotkopf, Ron, Michael, Dan, Carvalho, Teresa G., and Regev‑Rudzki, Neta

Abstract

Background Plasmodium falciparum (Pf) is the leading protozoan causing malaria, the most devastating parasitic dis‑ ease. To ensure transmission, a small subset of Pf parasites diferentiate into the sexual forms (gametocytes). Since the abundance of these essential parasitic forms is extremely low within the human host, little is currently known about the molecular regulation of their sexual diferentiation, highlighting the need to develop tools to investigate Pf gene expression during this fundamental mechanism. Methods We developed a high-throughput quantitative Reverse-Transcription PCR (RT-qPCR) platform to robustly monitor Pf transcriptional patterns, in particular, systematically profling the transcriptional pattern of a large panel of gametocyte-related genes (GRG). Initially, we evaluated the technical performance of the systematic RT-qPCR platform to ensure it complies with the accepted quality standards for: (i) RNA extraction, (ii) cDNA synthesis and (iii) evaluation of gene expression through RT-qPCR. We then used this approach to monitor alterations in gene expres‑ sion of a panel of GRG upon treatment with gametocytogenesis regulators. Results We thoroughly elucidated GRG expression profles under treatment with the antimalarial drug dihydroar‑ temisinin (DHA) or the metabolite choline over the course of a Pf blood cycle (48 h). We demonstrate that both signifcantly alter the expression pattern of PfAP2-G, the gametocytogenesis master regulator. However, they also markedly modify the developmental rate of the parasites and thus might bias the mRNA expression. Additionally, we screened the efect of the metabolites lactate and kynurenic acid, abundant in severe malaria, as potential regulators of gametocytogenesis. Conclusions Our data demonstrate that the high-throughput RT-qPCR method enables studying the immediate transcriptional response initiating gametocytogenesis of the parasites from a very low volume of malaria-infected RBC samples. The obtained data expand the current knowledge of the initial alterations in mRNA profles of GRG upon treatment with reported regulators. In addition, using this method emphasizes that asexual parasite stage composi‑ tion is a crucial element that must be considered when interpreting changes in GRG expression by RT-qPCR, specif‑ cally when screening for novel compounds that could regulate Pf sexual diferentiation. [ABSTRACT FROM AUTHOR]

Published

2023

35. Protocols for Plasmodium gametocyte production in vitro: an integrative review and analysis.

Author

Omorou, Roukayatou, Bin Sa'id, Ibrahim, Delves, Michael, Severini, Carlo, Kouakou, Yobouet Ines, Bienvenu, Anne-Lise, and Picot, Stephane

Subjects

*PLASMODIUM, *PLASMODIUM vivax, *SCIENCE databases, *PLASMODIUM falciparum, *VACCINE development, *GERM cells

Abstract

Background: The production of Plasmodium gametocytes in vitro is a real challenge. Many protocols have been described, but few have resulted in the production of viable and infectious gametocytes in sufficient quantities to conduct research on—but not limited to—transmission-blocking drug and vaccine development. The aim of this review was to identify and discuss gametocyte production protocols that have been developed over the last two decades. Methods: We analyzed the original gametocyte production protocols published from 2000 onwards based on a literature search and a thorough review. A systematic review was performed of relevant articles identified in the PubMed, Web of Sciences and ScienceDirect databases. Results: A total 23 studies on the production of Plasmodium gametocytes were identified, 19 involving in vitro Plasmodium falciparum, one involving Plasmodium knowlesi and three involving ex vivo Plasmodium vivax. Of the in vitro studies, 90% used environmental stressors to trigger gametocytogenesis. Mature gametocytemia of up to 4% was reported. Conclusions: Several biological parameters contribute to an optimal production in vitro of viable and infectious mature gametocytes. The knowledge gained from this systematic review on the molecular mechanisms involved in gametocytogenesis enables reproducible gametocyte protocols with transgenic parasite lines to be set up. This review highlights the need for additional gametocyte production protocols for Plasmodium species other than P. falciparum. [ABSTRACT FROM AUTHOR]

Published

2022

36. Reduction in Plasmodium falciparum Pfk13 and pfg377 allele diversity through time in southern Vietnam

Author

Nguyen Quang Thieu, Vu Duc Chinh, Truong Van Hanh, Nguyen Van Dung, Hidekazu Takagi, Takeshi Annoura, Satoru Kawai, Gaku Masuda, Nguyen Van Tuan, Vu Viet Hung, Shusuke Nakazawa, Richard Culleton, Nguyen Thi Huong Binh, and Yoshimasa Maeno

Subjects

Plasmodium falciparum, Artemisinin resistance, K13-propeller gene, pfg377 gene, Gametocyte, Vietnam, Arctic medicine. Tropical medicine, RC955-962

Abstract

Abstract Background Plasmodium falciparum has acquired resistance to artemisinin in Southeast Asia, with mutations in the P. falciparum Kelch-13 (Pfk13) gene associated with the resistance phenotype. The widespread use of Artemisinin-based combination therapy (ACT)s in Southeast Asia has led to the selection and spread of parasites carrying mutations in Pfk13. We characterised the allele diversity of Pfk13 and pfg377, an artemisinin-resistance neutral polymorphic gene, in parasite DNA extracted human blood from in southern Vietnam in 2003, 2012, 2015 and 2018. Method This study was conducted in Bu Gia Map commune, Binh Phuoc province, Vietnam, from May 2018 to January 2019. Twenty-four samples from 2018 to 2019, 30 from 2003, 24 from 2012 and 32 from 2015 were analysed. Malaria-infected human blood was collected by finger-prick and used for molecular analysis. A nested-PCR targeting the small subunit ribosomal RNA gene was used for Plasmodium species identification, followed by amplification and nucleotide sequencing of Pfk13 and region 3 of pfg377. Archived blood samples collected in the same region in 2012 and 2015 were also analysed as above for comparison. Results The genetic diversity of Pfk13 and pfg377 was lower in 2018–2019 compared to 2012 and 2015. The number of distinct Pfk13 mutants decreased from three in 2012 and 2015, P553L, V568G and C580Y, to one, C580Y in 2018–2019. In 2018–2019, the frequency of C580Y mutant strains was 71% (17/24 isolates). All samples were wild type in 2003. In 2012 and 2015, there were single-strain infections as well as co-infections with two mutant strains or with mutant and wild strains, whereas there were no co-infections in 2018. pfg377 allele diversity decreased from five alleles in 2012 to two alleles in 2018–2019. Conclusion The genetic diversity of P. falciparum was reduced at the two genetic loci surveyed in this study, Pfk13 and pfg377. In the case of the former gene, we observed an increase in the prevalence of parasites carrying the C580Y gene, known to confer reduced susceptibility to ACTs. The reduction in the diversity of pfg377 may be linked to the clonal expansion of parasite strains carrying the C580Y mutation, leading to an overall reduction in parasite genetic diversity across the population.

Published

2022

37. Direct detection of Plasmodium female gametocyte-specific transcript s25 mRNA in blood by CLIP-PCR

Author

YANG Jun-yuan, PIAN Hong-ru, YANG Ming-zhu, ZHENG Zhi

Subjects

plasmodium, gametocyte, detection method, capture, ligation, Medicine

Abstract

Objective To establish a molecular detection method for the Plasmodium female gametocyte. Methods Probes for capture and ligation probe-PCR (CLIP-PCR) were specific designed based on Plasmodium female gametocyte special RNA targets, which were the transcripts of the ookinetes surface protein (s25). After the whole blood cells were lysed, the RNA targets were directly released and captured on the 96-well plate by “sandwich” hybridization without extraction. Washing away the unbound probes, the ligation probes which also hybridized to the RNA target were ligated to form a single-strand amplification template with specific-designed sequence at both ends. The SYBR Green qPCR was carried out with universal primers. Or with TaqMan probe binding sequence was designed at the end of the templates, the TaqMan qPCR was carried out with universal primers and universal fluorescent probes. The sensitivity, specificity and repeatability of CLIP-PCR were evaluated and compared with the RT-qPCR. And it was also used to detect a small number of clinical samples. Results This method was successfully applied to detect s25 mRNA with high sensitivity and specificity. Both RT-qPCR and CLIP-PCR could detect s25 mRNA targets as low as 11 copies. However, CLIP-PCR was simpler compared to RT-qPCR. And it could accurately detect gametocytes in blood of malaria patients. The detection of 96 samples could be completed within 3 h. Conclusions SYBR Green CLIP-PCR and TaqMan CLIP-PCR for the female gametocyte of Plasmodium detection provides a sensitive and efficient method for large-scale screening of gametocytes and control of malaria transmission.

Published

2022

38. Rosette formation by Plasmodium vivax gametocytes favors the infection in Anopheles aquasalis

Author

Luis Carlos Salazar Alvarez, Vanessa Carneiro Barbosa, Omaira Vera Lizcano, Djane Clarys Baia da Silva, Rosa Amélia Gonçalves Santana, Camila Fabbri, Paulo Filemon Paoluci Pimenta, Wuelton Marcelo Monteiro, Letusa Albrecht, Marcus Vinicius Guimarães de Lacerda, Fabio Trindade Maranhão Costa, and Stefanie Costa Pinto Lopes

Subjects

malaria, gametocyte, rosetting, cytoadhesion, Plasmodium vivax, vector, Microbiology, QR1-502

Abstract

Plasmodium vivax is a public health problem and the most common type of malaria outside sub-Saharan Africa. The capacity of cytoadhesion, rosetting, and liver latent phase development could impact treatment and disease control. Although the ability to P. vivax gametocyte develop rosetting is known, it is not yet clear which role it plays during the infection and transmission process to the mosquito. Here, we used ex vivo approaches for evaluate the rosetting P. vivax gametocytes capacity and we have investigated the effect of this adhesive phenotype on the infection process in the vector Anopheles aquasalis mosquito. Rosette assays were performed in 107 isolates, and we have observed an elevated frequency of cytoadhesive phenomena (77,6%). The isolates with more than 10% of rosettes have presented a higher infection rate in Anopheles aquasalis (p=0.0252). Moreover, we found a positive correlation between the frequency of parasites in rosetting with the infection rate (p=0.0017) and intensity (p=0.0387) in the mosquito. The disruption of P. vivax rosette formation through mechanical rupture assay confirmed the previously findings, since the paired comparison showed that isolates with disrupted rosettes have a lower infection rate (p

Published

2023

39. Naturally acquired antibodies to gametocyte antigens are associated with reduced transmission of Plasmodium vivax gametocytes to Anopheles arabiensis mosquitoes

Author

Surafel K. Tebeje, Wakweya Chali, Elifaged Hailemeskel, Jordache Ramjith, Abrham Gashaw, Temesgen Ashine, Desalegn Nebret, Endashaw Esayas, Tadele Emiru, Tizita Tsegaye, Karina Teelen, Kjerstin Lanke, Eizo Takashima, Takafumi Tsuboi, Nichole D. Salinas, Niraj H. Tolia, David Narum, Chris Drakeley, Benoit Witkowski, Amelie Vantaux, Matthijs M. Jore, William J. R. Stone, Ivo S. Hansen, Fitsum G. Tadesse, and Teun Bousema

Subjects

Plasmodium vivax, gametocyte, transmission, immunity, anopheles, malaria, Microbiology, QR1-502

Abstract

Naturally acquired antibodies may reduce the transmission of Plasmodium gametocytes to mosquitoes. Here, we investigated associations between antibody prevalence and P. vivax infectivity to mosquitoes. A total of 368 microscopy confirmed P. vivax symptomatic patients were passively recruited from health centers in Ethiopia and supplemented with 56 observations from asymptomatic P. vivax parasite carriers. Direct membrane feeding assays (DMFA) were performed to assess mosquito infectivity; for selected feeds these experiments were also performed after replacing autologous plasma with malaria naïve control serum (n=61). The prevalence of antibodies against 6 sexual stage antigens (Pvs47, Pvs48/45, Pvs230, PvsHAP2, Pvs25 and PvCelTOS) and an array of asexual antigens was determined by ELISA and multiplexed bead-based assays. Gametocyte (ρ< 0.42; p = 0.0001) and parasite (ρ = 0.21; p = 0.0001) densities were positively associated with mosquito infection rates. Antibodies against Pvs47, Pvs230 and Pvs25 were associated with 23 and 34% reductions in mosquito infection rates (p

Published

2023

40. Plasmodium falciparum Sexual Commitment Rate Variation among Clinical Isolates and Diverse Laboratory-Adapted Lines

Author

Lindsay B. Stewart, Aline Freville, Till S. Voss, David A. Baker, Gordon A. Awandare, and David J. Conway

Subjects

clinical isolates, differentiation, gametocyte, intraspecific variation, sexual development, Microbiology, QR1-502

Abstract

ABSTRACT Asexual blood-stage malaria parasites must produce sexual progeny to infect mosquitoes. It is important to understand the scope and causes of intraspecific variation in sexual commitment rates, particularly for the major human parasite P. falciparum. First, two alternative assay methods of measuring sexual commitment were compared to test a genetically modified P. falciparum line with elevated commitment rates inducible by overexpression of GDV1. The methods yielded correlated measurements with higher sensitivity and precision being achieved by one employing detection of the early gametocyte differentiation marker Pfs16. Thus, this was used to survey a diverse range of parasite lines and test each in multiple biological replicate assays in a serum-free medium supplemented with Albumax. There were differences among six recent clinical isolates from Ghana in their mean rates of sexual commitment per cycle, ranging from 3.3% to 12.2%. Among 13 diverse long-term laboratory-adapted lines, mean sexual commitment rates for most ranged from 4.7% to 13.4%, a few had lower rates with means from 0.3 to 1.6%, and one with a nonfunctional ap2-g gene always showed zero commitment. Among a subset of lines tested for the effects of exogenous choline to suppress commitment, there were significant differences. As expected, there was no effect in a line that had lost the gdv1 gene and that had generally low commitment, whereas the others showed quantitatively variable but significant responses to choline, suggesting potential trait variation. The results indicated the value of performing multiple replicate assays for understanding the variation of this key reproductive trait that likely affects transmission. IMPORTANCE Only sexual-stage malaria parasites are transmitted from human blood to mosquitoes. Thus, it is vital to understand variations in sexual commitment rates because these may be modifiable or susceptible to blocking. Two different methods of commitment rate measurement were first compared, demonstrating higher sensitivity and precision by the detection of an early differentiation marker, which was subsequently used to survey diverse lines. Clinical isolates from Ghana showed significant variation in mean per-cycle commitment rates and variation among biological replicates. Laboratory-adapted lines of diverse origins had a wider range with most being within the range observed for the clinical isolates, while a minority consistently had lower or zero rates. There was quantitative variation in the effects when adding choline to suppress commitment, indicating differing responsiveness of parasites to this environmental modification. Performing multiple assay replicates and comparisons of diverse isolates was important to understand this trait and its potential effects on transmission.

Published

2022

41. PfHMGB2 has a role in malaria parasite mosquito infection.

Author

Kumar, Sudhir and Kappe, Stefan H. I.

Subjects

PLASMODIUM, OOCYSTS, PARASITE life cycles, HIGH mobility group proteins, MOSQUITOES, GENETIC regulation, MOSQUITO control

Abstract

Differentiation of asexually replicating parasites into gametocytes is critical for successful completion of the sexual phase of the malaria parasite life cycle. Gametes generated from gametocytes fuse to form a zygote which differentiates into ookinetes and oocysts. The sporozoites are formed inside oocysts which migrate to the salivary glands for next cycle of human infection. These morphologically and functionally distinct stages require stage-specific gene expression via specific transcriptional regulators. The capacity of high mobility group box (HMGB) proteins to interact with DNA in a sequence independent manner enables them to regulate higher order chromosome organization and regulation of gene expression. Plasmodium falciparum HMGB2 (PfHMGB2) shows a typical L-shaped predicted structure which is similar to mammalian HMG box proteins and shows very high protein sequence similarity to PyHMGB2 and PbHMGB2. Functional characterization of PfHMGB2 by gene deletion (Pfhmgb2?) showed that knockout parasites develop normally as asexual stages and undergo gametocytogenesis. Transmission experiments revealed that Pfhmgb2? can infect mosquitoes and develop as oocyst stages. However, transmission was reduced compared to wild type (WT) parasites and as a consequence, the salivary gland sporozoites were reduced in number. In summary, we demonstrate that PfHMGB2 has no role in asexual growth and a modest role in sexual phase development and parasite transmission to the mosquito. [ABSTRACT FROM AUTHOR]

Published

2022

42. Malaria parasites utilize two essential plasma membrane fusogens for gamete fertilization.

Author

Kumar, Sudhir, Valansi, Clari, Haile, Meseret T., Li, Xiaohui, Flyak, Kateryna, Dwivedy, Abhisek, Abatiyow, Biley A., Leeb, Amanda S., Kennedy, Spencer Y., Camargo, Nelly M., Vaughan, Ashley M., Brukman, Nicolas G., Podbilewicz, Benjamin, and Kappe, Stefan H. I.

Abstract

Cell fusion of female and male gametes is the climax of sexual reproduction. In many organisms, the Hapless 2 (HAP2) family of proteins play a critical role in gamete fusion. We find that Plasmodium falciparum, the causative agent of human malaria, expresses two HAP2 proteins: PfHAP2 and PfHAP2p. These proteins are present in stage V gametocytes and localize throughout the flagellum of male gametes. Gene deletion analysis and genetic crosses show that PfHAP2 and PfHAP2p individually are essential for male fertility and thereby, parasite transmission to the mosquito. Using a cell fusion assay, we demonstrate that PfHAP2 and PfHAP2p are both authentic plasma membrane fusogens. Our results establish nonredundant essential roles for PfHAP2 and PfHAP2p in mediating gamete fusion in Plasmodium and suggest avenues in the design of novel strategies to prevent malaria parasite transmission from humans to mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2022

43. Erythrocyte tropism of malarial parasites: The reticulocyte appeal.

Author

Yew Wai Leong, Russell, Bruce, Malleret, Benoit, and Rénia, Laurent

Subjects

RETICULOCYTES, ERYTHROCYTES, TROPISMS, PARASITE life cycles, BONE marrow

Abstract

Erythrocytes are formed from the enucleation of erythroblasts in the bone marrow, and as erythrocytes develop from immature reticulocytes into mature normocytes, they undergo extensive cellular changes through their passage in the blood. During the blood stage of the malarial parasite life cycle, the parasite sense and invade susceptible erythrocytes. However, different parasite species display varying erythrocyte tropisms (i.e., preference for either reticulocytes or normocytes). In this review, we explore the erythrocyte tropism of malarial parasites, especially their predilection to invade reticulocytes, as shown from recent studies. We also discuss possible mechanisms mediating erythrocyte tropism and the implications of specific tropisms to disease pathophysiology. Understanding these allows better insight into the role of reticulocytes in malaria and provides opportunities for targeted interventions. [ABSTRACT FROM AUTHOR]

Published

2022

44. High-throughput analysis of the transcriptional patterns of sexual genes in malaria

Author

Cruz Camacho, Abel, Kiper, Edo, Oren, Sonia, Zaharoni, Nir, Nir, Netta, Soffer, Noam, Noy, Yael, Ben David, Bar, Rivkin, Anna, Rotkopf, Ron, Michael, Dan, Carvalho, Teresa G., and Regev-Rudzki, Neta

Published

2023

45. PfHMGB2 has a role in malaria parasite mosquito infection

Author

Sudhir Kumar and Stefan H. I. Kappe

Subjects

gametocyte, differentiation, transmission, mosquito, oocyst, Microbiology, QR1-502

Abstract

Differentiation of asexually replicating parasites into gametocytes is critical for successful completion of the sexual phase of the malaria parasite life cycle. Gametes generated from gametocytes fuse to form a zygote which differentiates into ookinetes and oocysts. The sporozoites are formed inside oocysts which migrate to the salivary glands for next cycle of human infection. These morphologically and functionally distinct stages require stage-specific gene expression via specific transcriptional regulators. The capacity of high mobility group box (HMGB) proteins to interact with DNA in a sequence independent manner enables them to regulate higher order chromosome organization and regulation of gene expression. Plasmodium falciparum HMGB2 (PfHMGB2) shows a typical L- shaped predicted structure which is similar to mammalian HMG box proteins and shows very high protein sequence similarity to PyHMGB2 and PbHMGB2. Functional characterization of PfHMGB2 by gene deletion (Pfhmgb2¯) showed that knockout parasites develop normally as asexual stages and undergo gametocytogenesis. Transmission experiments revealed that Pfhmgb2¯ can infect mosquitoes and develop as oocyst stages. However, transmission was reduced compared to wild type (WT) parasites and as a consequence, the salivary gland sporozoites were reduced in number. In summary, we demonstrate that PfHMGB2 has no role in asexual growth and a modest role in sexual phase development and parasite transmission to the mosquito.

Published

2022

46. Plasmodium falciparum CRK5 Is Critical for Male Gametogenesis and Infection of the Mosquito

Author

Sudhir Kumar, Olivia R. Gargaro, and Stefan H. I. Kappe

Subjects

CRK5, gametocyte, exflagellation, mosquito, transmission, Microbiology, QR1-502

Abstract

ABSTRACT Cyclin-dependent kinases (CDKs) and cyclins are critical cell cycle regulators in eukaryotes. In this study, we functionally characterized a CDK-related kinase (CRK5) of the human malaria parasite Plasmodium falciparum. P. falciparum CRK5 (PfCRK5) was expressed in asexual blood stages and sexual gametocyte stages, but showed male gametocyte- specific expression. In contrast to previous findings, we showed that gene deletion Pfcrk5− parasites grew normally as asexual stages and underwent normal gametocytogenesis to stage V gametocytes. However, Pfcrk5− parasites showed a severe defect in male gametogenesis, which was evident by a significant reduction in the emergence of male gametes (exflagellation). This defect caused a severe reduction of parasite transmission to the mosquito. Genetic crosses performed using sex-specific sterile transgenic parasites revealed that Pfcrk5− parasites suffered a defect in male fertility but female gametes were fertile. Taken together, these results demonstrate that PfCRK5 is a critical sexual stage kinase which regulates male gametogenesis and transmission to the mosquito. IMPORTANCE Gametocytes are parasite sexual stages which differentiate from asexually replicating parasites. These stages are necessary for the completion of sexual phase of the parasite life cycle. Inside the mosquito midgut, gametocytes rapidly get activated to form fertilization competent gametes. These stages present a bottleneck in the parasite life cycle. In this study, we demonstrate that PfCRK5 is important for male gametogenesis and therefore regulates parasite transmission to the mosquito. Our study identifies PfCRK5 as a potential target for the development of drugs to block malaria transmission.

Published

2022

47. PfSRPK1 Regulates Asexual Blood Stage Schizogony and Is Essential for Male Gamete Formation

Author

Sudhir Kumar, Vinay K. Baranwal, Amanda S. Leeb, Meseret T. Haile, Kenza M. Z. Oualim, Nina Hertoghs, Ashley M. Vaughan, and Stefan H. I. Kappe

Subjects

SRPK1, gametocyte, exflagellation, mosquito, transmission, RNA-seq, Microbiology, QR1-502

Abstract

ABSTRACT Serine/arginine-rich protein kinases (SRPKs) are cell cycle-regulated serine/threonine protein kinases and are important regulators of splicing factors. In this study, we functionally characterize SRPK1 of the human malaria parasite Plasmodium falciparum. P. falciparum SRPK1 (PfSRPK1) was expressed in asexual blood-stage and sexual-stage gametocytes. Pfsrpk1− parasites formed asexual schizonts that generated far fewer merozoites than wild-type parasites, causing reduced replication rates. Pfsrpk1− parasites also showed a severe defect in the differentiation of male gametes, causing a complete block in parasite transmission to mosquitoes. RNA sequencing (RNA-seq) analysis of wild-type PfNF54 and Pfsrpk1− stage V gametocytes suggested a role for PfSRPK1 in regulating transcript splicing and transcript abundance of genes coding for (i) microtubule/cilium morphogenesis-related proteins, (ii) proteins involved in cyclic nucleotide metabolic processes, (iii) proteins involved in signaling such as PfMAP2, (iv) lipid metabolism enzymes, (v) proteins of osmophilic bodies, and (vi) crystalloid components. Our study reveals an essential role for PfSRPK1 in parasite cell morphogenesis and suggests this kinase as a target to prevent malaria transmission from humans to mosquitoes. IMPORTANCE Plasmodium sexual stages represent a critical bottleneck in the parasite life cycle. Gametocytes taken up in an infectious blood meal by female anopheline mosquito get activated to form gametes and fuse to form short-lived zygotes, which transform into ookinetes to infect mosquitoes. In the present study, we demonstrate that PfSRPK1 is important for merozoite formation and critical for male gametogenesis and is involved in transcript homeostasis for numerous parasite genes. Targeting PfSRPK1 and its downstream pathways may reduce parasite replication and help achieve effective malaria transmission-blocking strategies.

Published

2022

48. The WD40-Protein PfWLP1 Ensures Stability of the PfCCp-Based Adhesion Protein Complex in Plasmodium falciparum Gametocytes.

Author

Roling, Lena, Flammersfeld, Ansgar, Pradel, Gabriele, and Bennink, Sandra

Subjects

PLASMODIUM, PLASMODIUM falciparum, GERM cells, PROTEIN stability, BLOOD coagulation factors, REVERSE genetics, PROTEINS

Abstract

Members of the WD40-repeat protein family can be found in all eukaryotic proteomes where they usually serve as interaction platforms for the assembly of large protein complexes and are therefore essential for the integrity of these complexes. In the malaria parasite Plasmodium falciparum, the WD40-repeat protein PfWLP1 has been shown to interact with members of distinct adhesion protein complexes in the asexual blood stages and gametocyte stages. In this study, we demonstrate that the presence of PfWLP1 is crucial for both the stability of these gametocyte-specific adhesion complexes as well as for gametocyte maturation and gametogenesis. Using reverse genetics, we generated a PfWLP1-knockdown parasite line for functional characterization of the protein. Knockdown of PfWLP1 resulted in a slight reduction of gametocyte numbers and significantly the impaired ability of the gametocytes to exflagellate. PfWLP1-knockdown further led to reduced protein levels of the Limulus coagulation factor C-like (LCCL)-domain proteins PfCCp1 and PfCCp2, which are key components of the adhesion complexes. These findings suggest that the interaction of PfWLP1 with members of the PfCCp-based adhesion complex ensures complex stability and thereby contributes to gametocyte viability and exflagellation. [ABSTRACT FROM AUTHOR]

Published

2022

49. Streamlined and Robust Stage-Specific Profiling of Gametocytocidal Compounds Against Plasmodium falciparum.

Author

Reader, Janette, van der Watt, Mariette E., and Birkholtz, Lyn-Marié

Subjects

PLASMODIUM falciparum, MALARIA, PLASMODIUM, ANTIMALARIALS, GERM cells, DRUG discovery

Abstract

Malaria elimination is dependent on the ability to target both the pathogenic and transmissible stages of the human malaria parasite, Plasmodium falciparum. These forms of the parasite are differentiated by unique developmental stages, each with their own biological mechanisms and processes. These individual stages therefore also respond differently to inhibitory compounds, and this complicates the discovery of multistage active antimalarial agents. The search for compounds with transmissionblocking activity has focused on screening for activity on mature gametocytes, with only limited descriptions available for the activity of such compounds on immature stage gametocytes. This therefore poses a gap in the profiling of antimalarial agents for panreactive, multistage activity to antimalarial leads. Here, we optimized an effective and robust strategy for the simple and cost-effective description of the stage-specific action of gametocytocidal antimalarial compounds. [ABSTRACT FROM AUTHOR]

Published

2022

50. Adapt or Die: Targeting Unique Transmission-Stage Biology for Malaria Elimination.

Author

van der Watt, Mariëtte E., Reader, Janette, and Birkholtz, Lyn-Marié

Subjects

MALARIA, BIOLOGY, DRUG discovery, DRUG development, BONE marrow, GERM cells, PARTHENOGENESIS

Abstract

Plasmodium parasites have a complex life cycle that includes development in the human host as well as the Anopheles vector. Successful transmission of the parasite between its host and vector therefore requires the parasite to balance its investments in asexual replication and sexual reproduction, varying the frequency of sexual commitment to persist within the human host and generate future opportunities for transmission. The transmission window is extended further by the ability of stage V gametocytes to circulate in peripheral blood for weeks, whereas immature stage I to IV gametocytes sequester in the bone marrow and spleen until final maturation. Due to the low gametocyte numbers in blood circulation and with the ease of targeting such life cycle bottlenecks, transmission represents an efficient target for therapeutic intervention. The biological process of Plasmodium transmission is a multistage, multifaceted process and the past decade has seen a much deeper understanding of the molecular mechanisms and regulators involved. Clearly, specific and divergent processes are used during transmission compared to asexual proliferation, which both poses challenges but also opportunities for discovery of transmission-blocking antimalarials. This review therefore presents an update of our molecular understanding of gametocyte and gamete biology as well as the status of transmission-blocking activities of current antimalarials and lead development compounds. By defining the biological components associated with transmission, considerations for the development of new transmission-blocking drugs to target such untapped but unique biology is suggested as an important, main driver for transmission-blocking drug discovery. [ABSTRACT FROM AUTHOR]

Published

2022