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5. Safety, infectivity and immunogenicity of a genetically attenuated blood-stage malaria vaccine

Author

Webster, Rebecca, Sekuloski, Silvana, Odedra, Anand, Woolley, Stephen, Jennings, Helen, Amante, Fiona, Trenholme, Katharine R., Healer, Julie, Cowman, Alan F., Eriksson, Emily M., Sathe, Priyanka, Penington, Jocelyn, Blanch, Adam J., Dixon, Matthew W. A., Tilley, Leann, Duffy, Michael F., Craig, Alister, Storm, Janet, Chan, Jo-Anne, Evans, Krystal, Papenfuss, Anthony T., Schofield, Louis, Griffin, Paul, Barber, Bridget E., Andrew, Dean, Boyle, Michelle J., de Labastida Rivera, Fabian, Engwerda, Christian, and McCarthy, James S.

Published
2021
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10. Nanobodies against Pfs230 block Plasmodium falciparum transmission

Author

Dietrich, Melanie H., primary, Gabriela, Mikha, additional, Reaksudsan, Kitsanapong, additional, Dixon, Matthew W. A., additional, Chan, Li-Jin, additional, Adair, Amy, additional, Trickey, Stephanie, additional, O'Neill, Matthew T., additional, Tan, Li Lynn, additional, Lopaticki, Sash, additional, Healer, Julie, additional, Keremane, Sravya, additional, Cowman, Alan F., additional, and Tham, Wai-Hong, additional

Published
2022
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13. The delayed bloodstream clearance of Plasmodium falciparum parasites after M5717 treatment is attributable to the inability to modify their red blood cell hosts Molly.

Author

Schneider, Molly Parkyn, Looker, Oliver, Rebelo, Maria, Khoury, David S., Dixon, Matthew W. A., Oeuvray, Claude, Crabb, Brendan S., McCarthy, James, and Gilson, Paul R.

Subjects
PLASMODIUM falciparum, PARASITES, PLASMODIUM, PARASITE life cycles, PROTEIN synthesis, RIBOSOMES, DRUG development, ERYTHROCYTES
Abstract

M5717 is a promising antimalarial drug under development that acts against multiple stages of the life cycle of Plasmodium parasites by inhibiting the translation elongation factor 2 (PfeEF2), thereby preventing protein synthesis. The parasite clearance profile after drug treatment in preclinical studies in mice, and clinical trials in humans showed a notable delayed clearance phenotype whereby parasite infected red blood cells (iRBCs) persisted in the bloodstream for a significant period before eventual clearance. In a normal P. falciparum infection iRBCs sequester in the deep circulation by cytoadherence, allowing them to avoid surveillance and clearance in the spleen. We found that M5717 blocks parasite modification of their host red blood cells (RBCs) by preventing synthesis of new exported proteins, rather than by directly blocking the export of these proteins into the RBC compartment. Using in vitro models, we demonstrated that M5717 treated ring/trophozoite stage iRBCs became less rigid, and cytoadhered less well compared to untreated iRBCs. This indicates that in vivo persistence of M5717 treated iRBCs in the bloodstream is likely due to reduced cytoadherence and splenic clearance. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Additional file 2 of Safety, infectivity and immunogenicity of a genetically attenuated blood-stage malaria vaccine

Author

Webster, Rebecca, Sekuloski, Silvana, Odedra, Anand, Woolley, Stephen, Jennings, Helen, Amante, Fiona, Trenholme, Katharine R., Healer, Julie, Cowman, Alan F., Eriksson, Emily M., Sathe, Priyanka, Penington, Jocelyn, Blanch, Adam J., Dixon, Matthew W. A., Tilley, Leann, Duffy, Michael F., Craig, Alister, Storm, Janet, Chan, Jo-Anne, Evans, Krystal, Papenfuss, Anthony T., Schofield, Louis, Griffin, Paul, Barber, Bridget E., Andrew, Dean, Boyle, Michelle J., de Labastida Rivera, Fabian, Engwerda, Christian, and McCarthy, James S.

Abstract

Additional File 2. Supplementary methods and results for immunogenicity assessments of GAP vaccine. Text S1. Methodology for determining antibody mediated immune response to GAP vaccine. Text S2. Methodology for determining cell mediated immune response to GAP vaccine. Table S1. Antibodies used for flow cytometry. Figure S1. The gating strategy used to identify CD4+ T cells and subsets, as well as the expression of T cell activation markers. Figure S2. The anti-MSP2 IgM response over the course of the study in each subject. Figure S3. The IgG and IgM response to whole parasite lysate over the course of the study in each subject. Figure S4. The frequency of CD4+ T cells, Treg cells, Th1 cells and Tfh cells in peripheral blood mononuclear cells over the course of the study in each subject.

Published
2021
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17. Additional file 3 of Safety, infectivity and immunogenicity of a genetically attenuated blood-stage malaria vaccine

Author

Webster, Rebecca, Sekuloski, Silvana, Odedra, Anand, Woolley, Stephen, Jennings, Helen, Amante, Fiona, Trenholme, Katharine R., Healer, Julie, Cowman, Alan F., Eriksson, Emily M., Sathe, Priyanka, Penington, Jocelyn, Blanch, Adam J., Dixon, Matthew W. A., Tilley, Leann, Duffy, Michael F., Craig, Alister, Storm, Janet, Chan, Jo-Anne, Evans, Krystal, Papenfuss, Anthony T., Schofield, Louis, Griffin, Paul, Barber, Bridget E., Andrew, Dean, Boyle, Michelle J., de Labastida Rivera, Fabian, Engwerda, Christian, and McCarthy, James S.

Abstract

Additional File 3. Supplementary methods and results for in vitro assessments of GAP vaccine. Text S1. Methodology for parasite genotyping. Text S2. Methodology for cytoadherence assays. Text S3. Methodology for scanning electron microscopy. Text S4. Methodology for var gene expression analysis. Table S1. Duration of in vitro culture of P. falciparum prior to harvest for RNA extraction for var gene transcription analysis. Text S5. Results of parasite genotyping. Text S6. Results of scanning electron microscopy analysis of parasite-infected erythrocytes. Text S7. Results of cytoadherence assays. Text S8. Results of var gene expression analysis. Table S2. Most abundantly expressed var genes.

Published
2021
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18. Additional file 1 of Safety, infectivity and immunogenicity of a genetically attenuated blood-stage malaria vaccine

Author

Webster, Rebecca, Sekuloski, Silvana, Odedra, Anand, Woolley, Stephen, Jennings, Helen, Amante, Fiona, Trenholme, Katharine R., Healer, Julie, Cowman, Alan F., Eriksson, Emily M., Sathe, Priyanka, Penington, Jocelyn, Blanch, Adam J., Dixon, Matthew W. A., Tilley, Leann, Duffy, Michael F., Craig, Alister, Storm, Janet, Chan, Jo-Anne, Evans, Krystal, Papenfuss, Anthony T., Schofield, Louis, Griffin, Paul, Barber, Bridget E., Andrew, Dean, Boyle, Michelle J., de Labastida Rivera, Fabian, Engwerda, Christian, and McCarthy, James S.

Abstract

Additional File 1. Supplementary methods and results for subject eligibility and safety assessments. Text S1: Subject eligibility criteria. Table S1: Incidence of adverse events by subject. Table S2: Red blood cell alloantibody test results for Cohort 4 and phenotype of donor red blood cells used for GAP master cell bank manufacture.

Published
2021
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19. Pfcerli2, a duplicated gene in the malaria parasite Plasmodium falciparum essential for invasion of erythrocytes as revealed by phylogenetic and cell biological analysis

Author

Liffner, Benjamin, Balbin, Juan Miguel, Shami, Gerald J., Strauss, Jan, Frölich, Sonja, Heinemann, Gary K., Alder, Arne, Wichers, Jan Stephan, Tilley, Leann, Dixon, Matthew W. A., Gilberger, Tim-Wolf, Wilson, Danny W., Liffner, Benjamin, Balbin, Juan Miguel, Shami, Gerald J., Strauss, Jan, Frölich, Sonja, Heinemann, Gary K., Alder, Arne, Wichers, Jan Stephan, Tilley, Leann, Dixon, Matthew W. A., Gilberger, Tim-Wolf, and Wilson, Danny W.

Abstract

Merozoite invasion of host red blood cells (RBCs) is essential for survival of the human malaria parasite Plasmodium falciparum. Proteins involved with RBC binding and invasion are secreted from dual-club shaped organelles at the apical tip of the merozoite called the rhoptries. Here we characterise P. falciparum Cytosolically Exposed Rhoptry Leaflet Interacting protein 2 (PfCERLI2), as a rhoptry bulb protein that is essential for merozoite invasion. Phylogenetic analyses show that cerli2 arose through an ancestral gene duplication of cerli1, a related cytosolically exposed rhoptry bulb protein. We show that PfCERLI2 is essential for blood-stage growth and localises to the cytosolic face of the rhoptry bulb. Inducible knockdown of PfCERLI2 led to an inhibition of merozoite invasion after tight junction formation. PfCERLI2 knockdown was associated with inhibition of rhoptry antigen processing and a significant elongation of the rhoptries, suggesting that the inability of merozoites to invade is caused by aberrant rhoptry function due to PfCERLI2 deficiency. These findings identify PfCERLI2 as a protein that has key roles in rhoptry biology during merozoite invasion.

Published
2020
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21. Pfcerli2, a duplicated gene in the malaria parasitePlasmodium falciparumessential for invasion of erythrocytes as revealed by phylogenetic and cell biological analysis

Author

Liffner, Benjamin, primary, Balbin, Juan Miguel, additional, Shami, Gerald J., additional, Strauss, Jan, additional, Frölich, Sonja, additional, Heinemann, Gary K., additional, Alder, Arne, additional, Wichers, Jan Stephan, additional, Tilley, Leann, additional, Dixon, Matthew W. A., additional, Gilberger, Tim-Wolf, additional, and Wilson, Danny W., additional

Published
2020
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24. Surface area‐to‐volume ratio, not cellular viscoelasticity, is the major determinant of red blood cell traversal through small channels

Author

Namvar, Arman, primary, Blanch, Adam J., additional, Dixon, Matthew W., additional, Carmo, Olivia M. S., additional, Liu, Boyin, additional, Tiash, Snigdha, additional, Looker, Oliver, additional, Andrew, Dean, additional, Chan, Li‐Jin, additional, Tham, Wai‐Hong, additional, Lee, Peter V. S., additional, Rajagopal, Vijay, additional, and Tilley, Leann, additional

Published
2020
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25. Surface area-to-volume ratio, not cellular rigidity, determines red blood cell traversal through small capillaries

Author

Namvar, Arman, primary, Blanch, Adam J., additional, Dixon, Matthew W., additional, Carmo, Olivia M. S., additional, Liu, Boyin, additional, Tiash, Snigdha, additional, Looker, Oliver, additional, Andrew, Dean, additional, Chan, Li-Jin, additional, Tham, Wai-Hong, additional, Lee, Peter V. S., additional, Rajagopal, Vijay, additional, and Tilley, Leann, additional

Published
2020
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26. Role of Plasmodium falciparum Protein GEXP07 in Maurer’s Cleft Morphology, Knob Architecture, and P. falciparum EMP1 Trafficking

Author

McHugh, Emma, primary, Carmo, Olivia M. S., additional, Blanch, Adam, additional, Looker, Oliver, additional, Liu, Boyin, additional, Tiash, Snigdha, additional, Andrew, Dean, additional, Batinovic, Steven, additional, Low, Andy J. Y., additional, Cho, Hyun-Jung, additional, McMillan, Paul, additional, Tilley, Leann, additional, and Dixon, Matthew W. A., additional

Published
2020
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27. The Metabolite Repair Enzyme Phosphoglycolate Phosphatase Regulates Central Carbon Metabolism and Fosmidomycin Sensitivity in Plasmodium falciparum

Author

Dumont, Laure, primary, Richardson, Mark B., additional, van der Peet, Phillip, additional, Marapana, Danushka S., additional, Triglia, Tony, additional, Dixon, Matthew W. A., additional, Cowman, Alan F., additional, Williams, Spencer J., additional, Tilley, Leann, additional, McConville, Malcolm J., additional, and Cobbold, Simon A., additional

Published
2019
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28. Decreased K13 Abundance Reduces Hemoglobin Catabolism and Proteotoxic Stress, Underpinning Artemisinin Resistance

Author

Yang, Tuo, primary, Yeoh, Lee M., additional, Tutor, Madel V., additional, Dixon, Matthew W., additional, McMillan, Paul J., additional, Xie, Stanley C., additional, Bridgford, Jessica L., additional, Gillett, David L., additional, Duffy, Michael F., additional, Ralph, Stuart A., additional, McConville, Malcolm J., additional, Tilley, Leann, additional, and Cobbold, Simon A., additional

Published
2019
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33. Plasmodium-specific antibodies block in vivo parasite growth without clearing infected red blood cells

Author

Akter, Jasmin, primary, Khoury, David S., additional, Aogo, Rosemary, additional, Lansink, Lianne I. M., additional, SheelaNair, Arya, additional, Thomas, Bryce S., additional, Laohamonthonkul, Pawat, additional, Pernold, Clara P. S., additional, Dixon, Matthew W. A., additional, Soon, Megan S. F., additional, Fogg, Lily G., additional, Engel, Jessica A., additional, Elliott, Trish, additional, Sebina, Ismail, additional, James, Kylie R., additional, Cromer, Deborah, additional, Davenport, Miles P., additional, and Haque, Ashraful, additional

Published
2019
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34. Surface area‐to‐volume ratio, not cellular viscoelasticity, is the major determinant of red blood cell traversal through small channels.

Author

Namvar, Arman, Blanch, Adam J., Dixon, Matthew W., Carmo, Olivia M. S., Liu, Boyin, Tiash, Snigdha, Looker, Oliver, Andrew, Dean, Chan, Li‐Jin, Tham, Wai‐Hong, Lee, Peter V. S., Rajagopal, Vijay, and Tilley, Leann

Subjects
ERYTHROCYTES, SURFACE area, ERYTHROCYTE deformability, CELL membranes, CAPILLARIES, MICROFLUIDIC devices, PLASMA cells
Abstract

The remarkable deformability of red blood cells (RBCs) depends on the viscoelasticity of the plasma membrane and cell contents and the surface area to volume (SA:V) ratio; however, it remains unclear which of these factors is the key determinant for passage through small capillaries. We used a microfluidic device to examine the traversal of normal, stiffened, swollen, parasitised and immature RBCs. We show that dramatic stiffening of RBCs had no measurable effect on their ability to traverse small channels. By contrast, a moderate decrease in the SA:V ratio had a marked effect on the equivalent cylinder diameter that is traversable by RBCs of similar cellular viscoelasticity. We developed a finite element model that provides a coherent rationale for the experimental observations, based on the nonlinear mechanical behaviour of the RBC membrane skeleton. We conclude that the SA:V ratio should be given more prominence in studies of RBC pathologies. [ABSTRACT FROM AUTHOR]

Published
2021
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38. An exported protein-interacting complex involved in the trafficking of virulence determinants in Plasmodium-infected erythrocytes

Author

Batinovic, Steven, McHugh, Emma, Chisholm, Scott A., Matthews, Kathryn, Liu, Boiyin, Dumont, Laure, Charnaud, Sarah C., Parkyn Schneider, Molly, Gilson, Paul R., De Koning-Ward, Tania F., Dixon, Matthew W. A., Tilley, Leann, Batinovic, Steven, McHugh, Emma, Chisholm, Scott A., Matthews, Kathryn, Liu, Boiyin, Dumont, Laure, Charnaud, Sarah C., Parkyn Schneider, Molly, Gilson, Paul R., De Koning-Ward, Tania F., Dixon, Matthew W. A., and Tilley, Leann

Abstract

The malaria parasite, Plasmodium falciparum, displays the P. falciparum erythrocyte membrane protein 1 (PfEMP1) on the surface of infected red blood cells (RBCs). We here examine the physical organization of PfEMP1 trafficking intermediates in infected RBCs and determine interacting partners using an epitope-tagged minimal construct (PfEMP1B). We show that parasitophorous vacuole (PV)-located PfEMP1B interacts with components of the PTEX (Plasmodium Translocon of EXported proteins) as well as a novel protein complex, EPIC (Exported Protein-Interacting Complex). Within the RBC cytoplasm PfEMP1B interacts with components of the Maurer's clefts and the RBC chaperonin complex. We define the EPIC interactome and, using an inducible knockdown approach, show that depletion of one of its components, the parasitophorous vacuolar protein-1 (PV1), results in altered knob morphology, reduced cell rigidity and decreased binding to CD36. Accordingly, we show that deletion of the Plasmodium berghei homologue of PV1 is associated with attenuation of parasite virulence in vivo.

Published
2017

39. Disrupting assembly of the inner membrane complex blocks Plasmodium falciparum sexual stage development

Author

Parkyn Schneider, Molly, primary, Liu, Boyin, additional, Glock, Philipp, additional, Suttie, Annika, additional, McHugh, Emma, additional, Andrew, Dean, additional, Batinovic, Steven, additional, Williamson, Nicholas, additional, Hanssen, Eric, additional, McMillan, Paul, additional, Hliscs, Marion, additional, Tilley, Leann, additional, and Dixon, Matthew W. A., additional

Published
2017
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41. The exported chaperone Hsp70-x supports virulence functions for Plasmodium falciparum blood stage parasites

Author

Charnaud, Sarah C., primary, Dixon, Matthew W. A., additional, Nie, Catherine Q., additional, Chappell, Lia, additional, Sanders, Paul R., additional, Nebl, Thomas, additional, Hanssen, Eric, additional, Berriman, Matthew, additional, Chan, Jo-Anne, additional, Blanch, Adam J., additional, Beeson, James G., additional, Rayner, Julian C., additional, Przyborski, Jude M., additional, Tilley, Leann, additional, Crabb, Brendan S., additional, and Gilson, Paul R., additional

Published
2017
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42. An exported protein-interacting complex involved in the trafficking of virulence determinants in Plasmodium-infected erythrocytes

Author

Batinovic, Steven, primary, McHugh, Emma, additional, Chisholm, Scott A., additional, Matthews, Kathryn, additional, Liu, Boiyin, additional, Dumont, Laure, additional, Charnaud, Sarah C., additional, Schneider, Molly Parkyn, additional, Gilson, Paul R., additional, de Koning-Ward, Tania F., additional, Dixon, Matthew W. A., additional, and Tilley, Leann, additional

Published
2017
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43. Multiple stiffening effects of nanoscale knobs on human red blood cells infected with Plasmodium falciparum malaria parasite

Author

Massachusetts Institute of Technology. Department of Materials Science and Engineering, Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Kim, Sangtae, Li, Ju, Zhang, Yao, Huang, Changjin, Golkaram, Mahdi, Dixon, Matthew W. A., Tilley, Leann, Zhang, Sulin, Suresh, Subra, Massachusetts Institute of Technology. Department of Materials Science and Engineering, Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Kim, Sangtae, Li, Ju, Zhang, Yao, Huang, Changjin, Golkaram, Mahdi, Dixon, Matthew W. A., Tilley, Leann, Zhang, Sulin, and Suresh, Subra

Abstract

During its asexual development within the red blood cell (RBC), Plasmodium falciparum (Pf), the most virulent human malaria parasite, exports proteins that modify the host RBC membrane. The attendant increase in cell stiffness and cytoadherence leads to sequestration of infected RBCs in microvasculature, which enables the parasite to evade the spleen, and leads to organ dysfunction in severe cases of malaria. Despite progress in understanding malaria pathogenesis, the molecular mechanisms responsible for the dramatic loss of deformability of Pf-infected RBCs have remained elusive. By recourse to a coarse-grained (CG) model that captures the molecular structures of Pf-infected RBC membrane, here we show that nanoscale surface protrusions, known as “knobs,” introduce multiple stiffening mechanisms through composite strengthening, strain hardening, and knob density-dependent vertical coupling. On one hand, the knobs act as structural strengtheners for the spectrin network; on the other, the presence of knobs results in strain inhomogeneity in the spectrin network with elevated shear strain in the knob-free regions, which, given its strain-hardening property, effectively stiffens the network. From the trophozoite to the schizont stage that ensues within 24–48 h of parasite invasion into the RBC, the rise in the knob density results in the increased number of vertical constraints between the spectrin network and the lipid bilayer, which further stiffens the membrane. The shear moduli of Pf-infected RBCs predicted by the CG model at different stages of parasite maturation are in agreement with experimental results. In addition to providing a fundamental understanding of the stiffening mechanisms of Pf-infected RBCs, our simulation results suggest potential targets for antimalarial therapies., National Science Foundation (U.S.) (Grant CBET-1240696)

Published
2016

45. A repeat sequence domain of the ring-exported protein-1 ofPlasmodium falciparumcontrols export machinery architecture and virulence protein trafficking

Author

McHugh, Emma, primary, Batinovic, Steven, additional, Hanssen, Eric, additional, McMillan, Paul J., additional, Kenny, Shannon, additional, Griffin, Michael D. W., additional, Crawford, Simon, additional, Trenholme, Katharine R., additional, Gardiner, Donald L., additional, Dixon, Matthew W. A., additional, and Tilley, Leann, additional

Published
2015
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48. A female-gametocyte-specific ABC transporter plays a role in lipid metabolism in the malaria parasite

Author

Tran, Phuong T, Brown, Simon, Mitchell, Todd W, Matuschewski, Kai, Mcmillan, Paul J, Kirk, Kiaran, Dixon, Matthew W. A, Maier, Alexander, Tran, Phuong T, Brown, Simon, Mitchell, Todd W, Matuschewski, Kai, Mcmillan, Paul J, Kirk, Kiaran, Dixon, Matthew W. A, and Maier, Alexander

Abstract

ATP-binding cassette (ABC) transporters serve a variety of physiological functions as well as play key roles in drug resistance. The genome of the human malaria parasite, Plasmodium falciparum, encodes multiple members of this family, one of which, gABCG2, is transcribed predominantly in the gametocyte stage. Here we use gene deletion and tagging to investigate the expression, localization and function of gABCG2. The protein is found in a single dot-like lipid-rich structure within female, but not male, gametocytes. gABCG2-knockout cell lines produce more gametocytes of both sexes. By contrast, cholesteryl esters, diacylglycerols and triacylglycerols are significantly reduced in gABCG2-knockout gametocyte stages. We propose a role for gABCG2 in the regulation of gametocyte numbers and in the accumulation of neutral lipids, which are likely important for parasite development in the insect stages of the parasite life cycle.

Published
2014

49. A female gametocyte-specific ABC transporter plays a role in lipid metabolism in the malaria parasite

Author

Tran, Phuong N, Brown, Simon H. J, Mitchell, Todd W, Matuschewski, Kai, McMillan, Paul J, Kirk, Kiaran, Dixon, Matthew W. A, Maier, Alexander G, Tran, Phuong N, Brown, Simon H. J, Mitchell, Todd W, Matuschewski, Kai, McMillan, Paul J, Kirk, Kiaran, Dixon, Matthew W. A, and Maier, Alexander G

Abstract

ATP-binding cassette (ABC) transporters serve a variety of physiological functions as well as play key roles in drug resistance. The genome of the human malaria parasite, Plasmodium falciparum, encodes multiple members of this family, one of which, gABCG2, is transcribed predominantly in the gametocyte stage. Here we use gene deletion and tagging to investigate the expression, localization and function of gABCG2. The protein is found in a single dot-like lipid-rich structure within female, but not male, gametocytes. gABCG2-knockout cell lines produce more gametocytes of both sexes. By contrast, cholesteryl esters, diacylglycerols and triacylglycerols are significantly reduced in gABCG2-knockout gametocyte stages. We propose a role for gABCG2 in the regulation of gametocyte numbers and in the accumulation of neutral lipids, which are likely important for parasite development in the insect stages of the parasite life cycle.

Published
2014

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