Your search keyword '"Duffy MF"' showing total 115 results

1. The P. falciparum alternative histones Pf H2A.Z and Pf H2B.Z are dynamically acetylated and antagonized by PfSir2 histone deacetylases at heterochromatin boundaries

Author

Soldati-Favre, D, Azizan, S, Selvarajah, SA, Tang, J, Jeninga, MD, Schulz, D, Pareek, K, Herr, T, Day, KP, De Koning-Ward, TF, Petter, M, Duffy, MF, Soldati-Favre, D, Azizan, S, Selvarajah, SA, Tang, J, Jeninga, MD, Schulz, D, Pareek, K, Herr, T, Day, KP, De Koning-Ward, TF, Petter, M, and Duffy, MF

Abstract

The malaria parasite Plasmodium falciparum relies on variant expression of members of multi-gene families as a strategy for environmental adaptation to promote parasite survival and pathogenesis. These genes are located in transcriptionally silenced DNA regions. A limited number of these genes escape gene silencing, and switching between them confers variant fitness on parasite progeny. Here, we show that PfSir2 histone deacetylases antagonize DNA-interacting acetylated alternative histones at the boundaries between active and silent DNA. This finding implicates acetylated alternative histones in the mechanism regulating P. falciparum variant gene silencing and thus malaria pathogenesis. This work also revealed that acetylation of alternative histones at promoters is dynamically associated with promoter activity across the genome, implicating acetylation of alternative histones in gene regulation genome wide. Understanding mechanisms of gene regulation in P. falciparum may aid in the development of new therapeutic strategies for malaria, which killed 619,000 people in 2021.

Published

2023

2. Plasmodium falciparum gametocytes display global chromatin remodelling during sexual differentiation

Author

Jeninga, MD, Tang, J, Selvarajah, SA, Maier, AG, Duffy, MF, Petter, M, Jeninga, MD, Tang, J, Selvarajah, SA, Maier, AG, Duffy, MF, and Petter, M

Abstract

BACKGROUND: The protozoan malaria parasite Plasmodium falciparum has a complex life cycle during which it needs to differentiate into multiple morphologically distinct life forms. A key process for transmission of the disease is the development of male and female gametocytes in the human blood, yet the mechanisms determining sexual dimorphism in these haploid, genetically identical sexual precursor cells remain largely unknown. To understand the epigenetic program underlying the differentiation of male and female gametocytes, we separated the two sexual forms by flow cytometry and performed RNAseq as well as comprehensive ChIPseq profiling of several histone variants and modifications. RESULTS: We show that in female gametocytes the chromatin landscape is globally remodelled with respect to genome-wide patterns and combinatorial usage of histone variants and histone modifications. We identified sex specific differences in heterochromatin distribution, implicating exported proteins and ncRNAs in sex determination. Specifically in female gametocytes, the histone variants H2A.Z/H2B.Z were highly enriched in H3K9me3-associated heterochromatin. H3K27ac occupancy correlated with stage-specific gene expression, but in contrast to asexual parasites this was unlinked to H3K4me3 co-occupancy at promoters in female gametocytes. CONCLUSIONS: Collectively, we defined novel combinatorial chromatin states differentially organising the genome in gametocytes and asexual parasites and unravelled fundamental, sex-specific differences in the epigenetic code. Our chromatin maps represent an important resource for future understanding of the mechanisms driving sexual differentiation in P. falciparum.

Published

2023

3. The Putative Bromodomain Protein PfBDP7 of the Human Malaria Parasite Plasmodium Falciparum Cooperates With PfBDP1 in the Silencing of Variant Surface Antigen Expression

Author

Quinn, JE, Jeninga, MD, Limm, K, Pareek, K, Meissgeier, T, Bachmann, A, Duffy, MF, Petter, M, Quinn, JE, Jeninga, MD, Limm, K, Pareek, K, Meissgeier, T, Bachmann, A, Duffy, MF, and Petter, M

Abstract

Epigenetic regulation is a critical mechanism in controlling virulence, differentiation, and survival of the human malaria parasite Plasmodium (P.) falciparum. Bromodomain proteins contribute to this process by binding to acetylated lysine residues of histones and thereby targeting the gene regulatory machinery to gene promoters. A protein complex containing the P. falciparum bromodomain proteins (PfBDP) 1 and PfBDP2 (BDP1/BDP2 core complex) was previously shown to play an essential role for the correct transcription of invasion related genes. Here, we performed a functional characterization of a third component of this complex, which we dubbed PfBDP7, because structural modelling predicted a typical bromodomain fold. We confirmed that PfBDP7 is a nuclear protein that interacts with PfBDP1 at invasion gene promoters in mature schizont stage parasites and contributes to their transcription. Although partial depletion of PfBDP7 showed no significant effect on parasite viability, conditional knock down of either PfBDP7 or PfBDP1 resulted in the de-repression of variant surface antigens (VSA), which are important pathogenicity factors. This de-repression was evident both on mRNA and protein level. To understand the underlying mechanism, we mapped the genome wide binding sites of PfBDP7 by ChIPseq and showed that in early schizonts, PfBDP7 and PfBDP1 are commonly enriched in heterochromatic regions across the gene body of all VSA families, including genes coding for PfEMP1, RIFIN, STEVOR, and PfMC-2TM. This suggests that PfBDP7 and PfBDP1 contribute to the silencing of VSAs by associating with heterochromatin. In conclusion, we identified PfBDP7 as a chromatin binding protein that is a constitutive part of the P. falciparum BDP1/BDP2 core complex and established PfBDP1 and PfBDP7 as novel players in the silencing of heterochromatin regulated virulence gene families of the malaria parasite P. falciparum.

Published

2022

4. Relationship of circulating Plasmodium falciparum lifecycle stage to circulating parasitemia and total parasite biomass

Author

Duffy, MF, Tonkin-Hill, GQ, Trianty, L, Noviyanti, R, Nguyen, HHT, Rambhatla, JS, McConville, MJ, Rogerson, SJ, Brown, GV, Price, RN, Anstey, NM, Day, KP, Papenfuss, AT, Duffy, MF, Tonkin-Hill, GQ, Trianty, L, Noviyanti, R, Nguyen, HHT, Rambhatla, JS, McConville, MJ, Rogerson, SJ, Brown, GV, Price, RN, Anstey, NM, Day, KP, and Papenfuss, AT

Published

2022

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

Author

Webster, R, Sekuloski, S, Odedra, A, Woolley, S, Jennings, H, Amante, F, Trenholme, KR, Healer, J, Cowman, AF, Eriksson, EM, Sathe, P, Penington, J, Blanch, AJ, Dixon, MWA, Tilley, L, Duffy, MF, Craig, A, Storm, J, Chan, J-A, Evans, K, Papenfuss, AT, Schofield, L, Griffin, P, Barber, BE, Andrew, D, Boyle, MJ, Rivera, FDL, Engwerda, C, McCarthy, JS, Webster, R, Sekuloski, S, Odedra, A, Woolley, S, Jennings, H, Amante, F, Trenholme, KR, Healer, J, Cowman, AF, Eriksson, EM, Sathe, P, Penington, J, Blanch, AJ, Dixon, MWA, Tilley, L, Duffy, MF, Craig, A, Storm, J, Chan, J-A, Evans, K, Papenfuss, AT, Schofield, L, Griffin, P, Barber, BE, Andrew, D, Boyle, MJ, Rivera, FDL, Engwerda, C, and McCarthy, JS

Abstract

BACKGROUND: There is a clear need for novel approaches to malaria vaccine development. We aimed to develop a genetically attenuated blood-stage vaccine and test its safety, infectivity, and immunogenicity in healthy volunteers. Our approach was to target the gene encoding the knob-associated histidine-rich protein (KAHRP), which is responsible for the assembly of knob structures at the infected erythrocyte surface. Knobs are required for correct display of the polymorphic adhesion ligand P. falciparum erythrocyte membrane protein 1 (PfEMP1), a key virulence determinant encoded by a repertoire of var genes. METHODS: The gene encoding KAHRP was deleted from P. falciparum 3D7 and a master cell bank was produced in accordance with Good Manufacturing Practice. Eight malaria naïve males were intravenously inoculated (day 0) with 1800 (2 subjects), 1.8 × 105 (2 subjects), or 3 × 106 viable parasites (4 subjects). Parasitemia was measured using qPCR; immunogenicity was determined using standard assays. Parasites were rescued into culture for in vitro analyses (genome sequencing, cytoadhesion assays, scanning electron microscopy, var gene expression). RESULTS: None of the subjects who were administered with 1800 or 1.8 × 105 parasites developed parasitemia; 3/4 subjects administered 3× 106 parasites developed significant parasitemia, first detected on days 13, 18, and 22. One of these three subjects developed symptoms of malaria simultaneously with influenza B (day 17; 14,022 parasites/mL); one subject developed mild symptoms on day 28 (19,956 parasites/mL); and one subject remained asymptomatic up to day 35 (5046 parasites/mL). Parasitemia rapidly cleared with artemether/lumefantrine. Parasitemia induced a parasite-specific antibody and cell-mediated immune response. Parasites cultured ex vivo exhibited genotypic and phenotypic properties similar to inoculated parasites, although the var gene expression profile changed during growth in vivo. CONCLUSIONS: This study represen

Published

2021

6. Histone modifications associated with gene expression and genome accessibility are dynamically enriched at Plasmodium falciparum regulatory sequences

Author

Tang, Jingyi, Chisholm, SA, Yeoh, LM, Gilson, PR, Papenfuss, AT, Day, KP, Petter, M, Duffy, MF, Tang, Jingyi, Chisholm, SA, Yeoh, LM, Gilson, PR, Papenfuss, AT, Day, KP, Petter, M, and Duffy, MF

Abstract

Background: The malaria parasite Plasmodium falciparum has an unusually euchromatic genome with poorly conserved positioning of nucleosomes in intergenic sequences and poorly understood mechanisms of gene regulation. Variant histones and histone modifications determine nucleosome stability and recruit trans factors, but their combinatorial contribution to gene regulation is unclear. Results: Here, we show that the histone H3 acetylations H3K18ac and H3K27ac and the variant histone Pf H2A.Z are enriched together at regulatory sites upstream of genes. H3K18ac and H3K27ac together dynamically mark regulatory regions of genes expressed during the asexual life cycle. In contrast, H3K4me1 is depleted in intergenic sequence and dynamically depleted upstream of expressed genes. The temporal pattern of H3K27ac and H3K18ac enrichment indicates that they accumulate during S phase and mitosis and are retained at regulatory sequences until at least G1 phase and after cessation of expression of the cognate genes. We integrated our ChIPseq data with existing datasets to show that in schizont stages H3K18ac, H3K27ac and Pf H2A.Z colocalise with the transcription factor PfAP2-I and the bromodomain protein PfBDP1 and are enriched at stably positioned nucleosomes within regions of exposed DNA at active transcriptional start sites. Using transient transfections we showed that sequences enriched with colocalised H3K18ac, H3K27ac and Pf H2A.Z possess promoter activity in schizont stages, but no enhancer-like activity. Conclusions: The dynamic H3 acetylations define P. falciparum regulatory sequences and contribute to gene activation. These findings expand the knowledge of the chromatin landscape that regulates gene expression in P. falciparum.

Published

2020

7. Histone modifications associated with gene expression and genome accessibility are dynamically enriched at Plasmodium falciparum regulatory sequences

Author

Tang, J, Chisholm, SA, Yeoh, LM, Gilson, PR, Papenfuss, AT, Day, KP, Petter, M, Duffy, MF, Tang, J, Chisholm, SA, Yeoh, LM, Gilson, PR, Papenfuss, AT, Day, KP, Petter, M, and Duffy, MF

Abstract

BACKGROUND: The malaria parasite Plasmodium falciparum has an unusually euchromatic genome with poorly conserved positioning of nucleosomes in intergenic sequences and poorly understood mechanisms of gene regulation. Variant histones and histone modifications determine nucleosome stability and recruit trans factors, but their combinatorial contribution to gene regulation is unclear. RESULTS: Here, we show that the histone H3 acetylations H3K18ac and H3K27ac and the variant histone Pf H2A.Z are enriched together at regulatory sites upstream of genes. H3K18ac and H3K27ac together dynamically mark regulatory regions of genes expressed during the asexual life cycle. In contrast, H3K4me1 is depleted in intergenic sequence and dynamically depleted upstream of expressed genes. The temporal pattern of H3K27ac and H3K18ac enrichment indicates that they accumulate during S phase and mitosis and are retained at regulatory sequences until at least G1 phase and after cessation of expression of the cognate genes. We integrated our ChIPseq data with existing datasets to show that in schizont stages H3K18ac, H3K27ac and Pf H2A.Z colocalise with the transcription factor PfAP2-I and the bromodomain protein PfBDP1 and are enriched at stably positioned nucleosomes within regions of exposed DNA at active transcriptional start sites. Using transient transfections we showed that sequences enriched with colocalised H3K18ac, H3K27ac and Pf H2A.Z possess promoter activity in schizont stages, but no enhancer-like activity. CONCLUSIONS: The dynamic H3 acetylations define P. falciparum regulatory sequences and contribute to gene activation. These findings expand the knowledge of the chromatin landscape that regulates gene expression in P. falciparum.

Published

2020

8. Controlled human malaria infection with Plasmodium falciparum demonstrates impact of naturally acquired immunity on virulence gene expression

Author

Rowe, A, Bachmann, A, Bruske, E, Krumkamp, R, Turners, L, Wichers, JS, Petter, M, Held, J, Duffy, MF, Sim, BKL, Hoffman, SL, Kremsner, PG, Lell, B, Laystsen, T, Frank, M, Mordmueller, B, Tannich, E, Rowe, A, Bachmann, A, Bruske, E, Krumkamp, R, Turners, L, Wichers, JS, Petter, M, Held, J, Duffy, MF, Sim, BKL, Hoffman, SL, Kremsner, PG, Lell, B, Laystsen, T, Frank, M, Mordmueller, B, and Tannich, E

Abstract

The pathogenesis of Plasmodium falciparum malaria is linked to the variant surface antigen PfEMP1, which mediates tethering of infected erythrocytes to the host endothelium and is encoded by approximately 60 var genes per parasite genome. Repeated episodes of malaria infection result in the gradual acquisition of protective antibodies against PfEMP1 variants. The antibody repertoire is believed to provide a selective pressure driving the clonal expansion of parasites expressing unrecognized PfEMP1 variants, however, due to the lack of experimental in vivo models there is only limited experimental evidence in support of this concept. To get insight into the impact of naturally acquired immunity on the expressed var gene repertoire early during infection we performed controlled human malaria infections of 20 adult African volunteers with life-long malaria exposure using aseptic, purified, cryopreserved P. falciparum sporozoites (Sanaria PfSPZ Challenge) and correlated serological data with var gene expression patterns from ex vivo parasites. Among the 10 African volunteers who developed patent infections, individuals with low antibody levels showed a steep rise in parasitemia accompanied by broad activation of multiple, predominantly subtelomeric var genes, similar to what we previously observed in naïve volunteers. In contrast, individuals with intermediate antibody levels developed asymptomatic infections and the ex vivo parasite populations expressed only few var gene variants, indicative of clonal selection. Importantly, in contrast to parasites from naïve volunteers, expression of var genes coding for endothelial protein C receptor (EPCR)-binding PfEMP1 that are associated with severe childhood malaria was rarely detected in semi-immune adult African volunteers. Moreover, we followed var gene expression for up to six parasite replication cycles and demonstrated for the first time in vivo a shift in the dominant var gene variant. In conclusion, our data suggest th

Published

2019

9. A high parasite density environment induces transcriptional changes and cell death in Plasmodium falciparum blood stages

Author

Chou, ES, Abidi, SZ, Teye, M, Leliwa-Sytek, A, Rask, TS, Cobbold, SA, Tonkin-Hill, GQ, Subramaniam, KS, Sexton, AE, Creek, DJ, Daily, JP, Duffy, MF, Day, KP, Chou, ES, Abidi, SZ, Teye, M, Leliwa-Sytek, A, Rask, TS, Cobbold, SA, Tonkin-Hill, GQ, Subramaniam, KS, Sexton, AE, Creek, DJ, Daily, JP, Duffy, MF, and Day, KP

Abstract

UNLABELLED: Transient regulation of Plasmodium numbers below the density that induces fever has been observed in chronic malaria infections in humans. This species transcending control cannot be explained by immunity alone. Using an in vitro system we have observed density dependent regulation of malaria population size as a mechanism to possibly explain these in vivo observations. Specifically, Plasmodium falciparum blood stages from a high but not low-density environment exhibited unique phenotypic changes during the late trophozoite (LT) and schizont stages of the intraerythrocytic cycle. These included in order of appearance: failure of schizonts to mature and merozoites to replicate, apoptotic-like morphological changes including shrinking, loss of mitochondrial membrane potential, and blebbing with eventual release of aberrant parasites from infected erythrocytes. This unique death phenotype was triggered in a stage-specific manner by sensing of a high-density culture environment. Conditions of glucose starvation, nutrient depletion, and high lactate could not induce the phenotype. A high-density culture environment induced rapid global changes in the parasite transcriptome including differential expression of genes involved in cell remodeling, clonal antigenic variation, metabolism, and cell death pathways including an apoptosis-associated metacaspase gene. This transcriptional profile was also characterized by concomitant expression of asexual and sexual stage-specific genes. The data show strong evidence to support our hypothesis that density sensing exists in P. falciparum. They indicate that an apoptotic-like mechanism may play a role in P. falciparum density regulation, which, as in yeast, has features quite distinguishable from mammalian apoptosis. DATABASE: Gene expression data are available in the GEO databases under the accession number GSE91188.

Published

2018

10. The &ITPlasmodium falciparum &ITtranscriptome in severe malaria reveals altered expression of genes involved in important processes including surface antigen-encoding &ITvar &ITgenes

Author

Schneider, D, Tonkin-Hill, GQ, Trianty, L, Noviyanti, R, Nguyen, HHT, Sebayang, BF, Lampah, DA, Marfurt, J, Cobbold, SA, Rambhatla, JS, McConville, MJ, Rogerson, SJ, Brown, G, Day, KP, Price, RN, Anstey, NM, Papenfuss, AT, Duffy, MF, Schneider, D, Tonkin-Hill, GQ, Trianty, L, Noviyanti, R, Nguyen, HHT, Sebayang, BF, Lampah, DA, Marfurt, J, Cobbold, SA, Rambhatla, JS, McConville, MJ, Rogerson, SJ, Brown, G, Day, KP, Price, RN, Anstey, NM, Papenfuss, AT, and Duffy, MF

Abstract

Within the human host, the malaria parasite Plasmodium falciparum is exposed to multiple selection pressures. The host environment changes dramatically in severe malaria, but the extent to which the parasite responds to-or is selected by-this environment remains unclear. From previous studies, the parasites that cause severe malaria appear to increase expression of a restricted but poorly defined subset of the PfEMP1 variant, surface antigens. PfEMP1s are major targets of protective immunity. Here, we used RNA sequencing (RNAseq) to analyse gene expression in 44 parasite isolates that caused severe and uncomplicated malaria in Papuan patients. The transcriptomes of 19 parasite isolates associated with severe malaria indicated that these parasites had decreased glycolysis without activation of compensatory pathways; altered chromatin structure and probably transcriptional regulation through decreased histone methylation; reduced surface expression of PfEMP1; and down-regulated expression of multiple chaperone proteins. Our RNAseq also identified novel associations between disease severity and PfEMP1 transcripts, domains, and smaller sequence segments and also confirmed all previously reported associations between expressed PfEMP1 sequences and severe disease. These findings will inform efforts to identify vaccine targets for severe malaria and also indicate how parasites adapt to-or are selected by-the host environment in severe malaria.

Published

2018

11. Activation and clustering of a Plasmodium falciparum var gene are affected by subtelomeric sequences

Author

Duffy, MF, Tang, Jingyi, Sumardy, F, Nguyen, HHT, Selvarajah, SA, Josling, GA, Day, KP, Petter, M, Brown, GV, Duffy, MF, Tang, Jingyi, Sumardy, F, Nguyen, HHT, Selvarajah, SA, Josling, GA, Day, KP, Petter, M, and Brown, GV

Published

2017

12. Patterns of protective associations differ for antibodies to &ITP&IT. &ITfalciparum&IT-infected erythrocytes and merozoites in immunity against malaria in children

Author

Chan, J-A, Stanisic, D, Duffy, MF, Robinson, LJ, Lin, E, Kazura, JW, King, CL, Siba, PM, Fowkes, FJ, Mueller, I, Beeson, JG, Chan, J-A, Stanisic, D, Duffy, MF, Robinson, LJ, Lin, E, Kazura, JW, King, CL, Siba, PM, Fowkes, FJ, Mueller, I, and Beeson, JG

Abstract

Acquired antibodies play an important role in immunity to P. falciparum malaria and are typically directed towards surface antigens expressed by merozoites and infected erythrocytes (IEs). The importance of specific IE surface antigens as immune targets remains unclear. We evaluated antibodies and protective associations in two cohorts of children in Papua New Guinea. We used genetically-modified P. falciparum to evaluate the importance of PfEMP1 and a P. falciparum isolate with a virulent phenotype. Our findings suggested that PfEMP1 was the dominant target of antibodies to the IE surface, including functional antibodies that promoted opsonic phagocytosis by monocytes. Antibodies were associated with increasing age and concurrent parasitemia, and were higher among children exposed to a higher force-of-infection as determined using molecular detection. Antibodies to IE surface antigens were consistently associated with reduced risk of malaria in both younger and older children. However, protective associations for antibodies to merozoite surface antigens were only observed in older children. This suggests that antibodies to IE surface antigens, particularly PfEMP1, play an earlier role in acquired immunity to malaria, whereas greater exposure is required for protective antibodies to merozoite antigens. These findings have implications for vaccine design and serosurveillance of malaria transmission and immunity.

Published

2017

13. A single point in protein trafficking by Plasmodium falciparum determines the expression of major antigens on the surface of infected erythrocytes targeted by human antibodies

Author

Chan, J-A, Howell, KB, Langer, C, Maier, AG, Hasang, W, Rogerson, SJ, Petter, M, Chesson, J, Stanisic, DI, Duffy, MF, Cooke, BM, Siba, PM, Mueller, I, Bull, PC, Marsh, K, Fowkes, FJI, Beeson, JG, Chan, J-A, Howell, KB, Langer, C, Maier, AG, Hasang, W, Rogerson, SJ, Petter, M, Chesson, J, Stanisic, DI, Duffy, MF, Cooke, BM, Siba, PM, Mueller, I, Bull, PC, Marsh, K, Fowkes, FJI, and Beeson, JG

Abstract

Antibodies to blood-stage antigens of Plasmodium falciparum play a pivotal role in human immunity to malaria. During parasite development, multiple proteins are trafficked from the intracellular parasite to the surface of P. falciparum-infected erythrocytes (IEs). However, the relative importance of different proteins as targets of acquired antibodies, and key pathways involved in trafficking major antigens remain to be clearly defined. We quantified antibodies to surface antigens among children, adults, and pregnant women from different malaria-exposed regions. We quantified the importance of antigens as antibody targets using genetically engineered P. falciparum with modified surface antigen expression. Genetic deletion of the trafficking protein skeleton-binding protein-1 (SBP1), which is involved in trafficking the surface antigen PfEMP1, led to a dramatic reduction in antibody recognition of IEs and the ability of human antibodies to promote opsonic phagocytosis of IEs, a key mechanism of parasite clearance. The great majority of antibody epitopes on the IE surface were SBP1-dependent. This was demonstrated using parasite isolates with different genetic or phenotypic backgrounds, and among antibodies from children, adults, and pregnant women in different populations. Comparisons of antibody reactivity to parasite isolates with SBP1 deletion or inhibited PfEMP1 expression suggest that PfEMP1 is the dominant target of acquired human antibodies, and that other P. falciparum IE surface proteins are minor targets. These results establish SBP1 as part of a critical pathway for the trafficking of major surface antigens targeted by human immunity, and have key implications for vaccine development, and quantifying immunity in populations.

Published

2016

14. Mosquito Passage Dramatically Changes var Gene Expression in Controlled Human Plasmodium falciparum Infections

Author

Dzikowski, R, Bachmann, A, Petter, M, Krumkamp, R, Esen, M, Held, J, Scholz, JAM, Li, T, Sim, BKL, Hoffman, SL, Kremsner, PG, Mordmueller, B, Duffy, MF, Tannich, E, Dzikowski, R, Bachmann, A, Petter, M, Krumkamp, R, Esen, M, Held, J, Scholz, JAM, Li, T, Sim, BKL, Hoffman, SL, Kremsner, PG, Mordmueller, B, Duffy, MF, and Tannich, E

Abstract

Virulence of the most deadly malaria parasite Plasmodium falciparum is linked to the variant surface antigen PfEMP1, which is encoded by about 60 var genes per parasite genome. Although the expression of particular variants has been associated with different clinical outcomes, little is known about var gene expression at the onset of infection. By analyzing controlled human malaria infections via quantitative real-time PCR, we show that parasite populations from 18 volunteers expressed virtually identical transcript patterns that were dominated by the subtelomeric var gene group B and, to a lesser extent, group A. Furthermore, major changes in composition and frequency of var gene transcripts were detected between the parental parasite culture that was used to infect mosquitoes and Plasmodia recovered from infected volunteers, suggesting that P. falciparum resets its var gene expression during mosquito passage and starts with the broad expression of a specific subset of var genes when entering the human blood phase.

Published

2016

15. Differences in PfEMP1s recognized by antibodies from patients with uncomplicated or severe malaria

Author

Duffy, MF, Noviyanti, R, Tsuboi, T, Feng, Z-P, Trianty, L, Sebayang, BF, Takashima, E, Sumardy, F, Lampah, DA, Turner, L, Lavstsen, T, Fowkes, FJI, Siba, P, Rogerson, SJ, Theander, TG, Marfurt, J, Price, RN, Anstey, NM, Brown, GV, Papenfuss, AT, Duffy, MF, Noviyanti, R, Tsuboi, T, Feng, Z-P, Trianty, L, Sebayang, BF, Takashima, E, Sumardy, F, Lampah, DA, Turner, L, Lavstsen, T, Fowkes, FJI, Siba, P, Rogerson, SJ, Theander, TG, Marfurt, J, Price, RN, Anstey, NM, Brown, GV, and Papenfuss, AT

Abstract

BACKGROUND: Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) variants are encoded by var genes and mediate pathogenic cytoadhesion and antigenic variation in malaria. PfEMP1s can be broadly divided into three principal groups (A, B and C) and they contain conserved arrangements of functional domains called domain cassettes. Despite their tremendous diversity there is compelling evidence that a restricted subset of PfEMP1s is expressed in severe disease. In this study antibodies from patients with severe and uncomplicated malaria were compared for differences in reactivity with a range of PfEMP1s to determine whether antibodies to particular PfEMP1 domains were associated with severe or uncomplicated malaria. METHODS: Parts of expressed var genes in a severe malaria patient were identified by RNAseq and several of these partial PfEMP1 domains were expressed together with others from laboratory isolates. Antibodies from Papuan patients to these parts of multiple PfEMP1 proteins were measured. RESULTS: Patients with uncomplicated malaria were more likely to have antibodies that recognized PfEMP1 of Group C type and recognized a broader repertoire of group A and B PfEMP1s than patients with severe malaria. CONCLUSION: These data suggest that exposure to a broad range of group A and B PfEMP1s is associated with protection from severe disease in Papua, Indonesia.

Published

2016

16. Targets of antibodies against Plasmodium falciparum-infected erythrocytes in malaria immunity

Author

Chan, J-A, Howell, KB, Reiling, L, Ataide, R, Mackintosh, CL, Fowkes, FJI, Petter, M, Chesson, JM, Langer, C, Warimwe, GM, Duffy, MF, Rogerson, SJ, Bull, PC, Cowman, AF, Marsh, K, Beeson, JG, Chan, J-A, Howell, KB, Reiling, L, Ataide, R, Mackintosh, CL, Fowkes, FJI, Petter, M, Chesson, JM, Langer, C, Warimwe, GM, Duffy, MF, Rogerson, SJ, Bull, PC, Cowman, AF, Marsh, K, and Beeson, JG

Abstract

Plasmodium falciparum is the major cause of malaria globally and is transmitted by mosquitoes. During parasitic development, P. falciparum-infected erythrocytes (P. falciparum-IEs) express multiple polymorphic proteins known as variant surface antigens (VSAs), including the P. falciparum erythrocyte membrane protein 1 (PfEMP1). VSA-specific antibodies are associated with protection from symptomatic and severe malaria. However, the importance of the different VSA targets of immunity to malaria remains unclear, which has impeded an understanding of malaria immunity and vaccine development. In this study, we developed assays using transgenic P. falciparum with modified PfEMP1 expression to quantify serum antibodies to VSAs among individuals exposed to malaria. We found that the majority of the human antibody response to the IE targets PfEMP1. Furthermore, our longitudinal studies showed that individuals with PfEMP1-specific antibodies had a significantly reduced risk of developing symptomatic malaria, whereas antibodies to other surface antigens were not associated with protective immunity. Using assays that measure antibody-mediated phagocytosis of IEs, an important mechanism in parasite clearance, we identified PfEMP1 as the major target of these functional antibodies. Taken together, these data demonstrate that PfEMP1 is a key target of humoral immunity. These findings advance our understanding of the targets and mediators of human immunity to malaria and have major implications for malaria vaccine development.

Published

2012

17. Temporal Expression and Localization Patterns of Variant Surface Antigens in Clinical Plasmodium falciparum Isolates during Erythrocyte Schizogony

Author

Hviid, L, Bachmann, A, Petter, M, Tilly, A-K, Biller, L, Uliczka, KA, Duffy, MF, Tannich, E, Bruchhaus, I, Hviid, L, Bachmann, A, Petter, M, Tilly, A-K, Biller, L, Uliczka, KA, Duffy, MF, Tannich, E, and Bruchhaus, I

Abstract

Avoidance of antibody-mediated immune recognition allows parasites to establish chronic infections and enhances opportunities for transmission. The human malaria parasite Plasmodium falciparum possesses a number of multi-copy gene families, including var, rif, stevor and pfmc-2tm, which encode variant antigens believed to be expressed on the surfaces of infected erythrocytes. However, most studies of these antigens are based on in vitro analyses of culture-adapted isolates, most commonly the laboratory strain 3D7, and thus may not be representative of the unique challenges encountered by P. falciparum in the human host. To investigate the expression of the var, rif-A, rif-B, stevor and pfmc-2tm family genes under conditions that mimic more closely the natural course of infection, ex vivo clinical P. falciparum isolates were analyzed using a novel quantitative real-time PCR approach. Expression patterns in the clinical isolates at various time points during the first intraerythrocytic developmental cycle in vitro were compared to those of strain 3D7. In the clinical isolates, in contrast to strain 3D7, there was a peak of expression of the multi-copy gene families rif-A, stevor and pfmc-2tm at the young ring stage, in addition to the already known expression peak in trophozoites. Furthermore, most of the variant surface antigen families were overexpressed in the clinical isolates relative to 3D7, with the exception of the pfmc-2tm family, expression of which was higher in 3D7 parasites. Immunofluorescence analyses performed in parallel revealed two stage-dependent localization patterns of RIFIN, STEVOR and PfMC-2TM. Proteins were exported into the infected erythrocyte at the young trophozoite stage, whereas they remained inside the parasite membrane during schizont stage and were subsequently observed in different compartments in the merozoite. These results reveal a complex pattern of expression of P. falciparum multi-copy gene families during clinical progression a

Published

2012

18. The Role of Bromodomain Proteins in Regulating Gene Expression

Author

Josling, GA, Selvarajah, SA, Petter, M, Duffy, MF, Josling, GA, Selvarajah, SA, Petter, M, and Duffy, MF

Abstract

Histone modifications are important in regulating gene expression in eukaryotes. Of the numerous histone modifications which have been identified, acetylation is one of the best characterised and is generally associated with active genes. Histone acetylation can directly affect chromatin structure by neutralising charges on the histone tail, and can also function as a binding site for proteins which can directly or indirectly regulate transcription. Bromodomains specifically bind to acetylated lysine residues on histone tails, and bromodomain proteins play an important role in anchoring the complexes of which they are a part to acetylated chromatin. Bromodomain proteins are involved in a diverse range of functions, such as acetylating histones, remodeling chromatin, and recruiting other factors necessary for transcription. These proteins thus play a critical role in the regulation of transcription.

Published

2012

19. Expression of P. falciparum var Genes Involves Exchange of the Histone Variant H2A.Z at the Promoter

Author

Deitsch, K, Petter, M, Lee, CC, Byrne, TJ, Boysen, KE, Volz, J, Ralph, SA, Cowman, AF, Brown, GV, Duffy, MF, Deitsch, K, Petter, M, Lee, CC, Byrne, TJ, Boysen, KE, Volz, J, Ralph, SA, Cowman, AF, Brown, GV, and Duffy, MF

Abstract

Plasmodium falciparum employs antigenic variation to evade the human immune response by switching the expression of different variant surface antigens encoded by the var gene family. Epigenetic mechanisms including histone modifications and sub-nuclear compartmentalization contribute to transcriptional regulation in the malaria parasite, in particular to control antigenic variation. Another mechanism of epigenetic control is the exchange of canonical histones with alternative variants to generate functionally specialized chromatin domains. Here we demonstrate that the alternative histone PfH2A.Z is associated with the epigenetic regulation of var genes. In many eukaryotic organisms the histone variant H2A.Z mediates an open chromatin structure at promoters and facilitates diverse levels of regulation, including transcriptional activation. Throughout the asexual, intraerythrocytic lifecycle of P. falciparum we found that the P. falciparum ortholog of H2A.Z (PfH2A.Z) colocalizes with histone modifications that are characteristic of transcriptionally-permissive euchromatin, but not with markers of heterochromatin. Consistent with this finding, antibodies to PfH2A.Z co-precipitate the permissive modification H3K4me3. By chromatin-immunoprecipitation we show that PfH2A.Z is enriched in nucleosomes around the transcription start site (TSS) in both transcriptionally active and silent stage-specific genes. In var genes, however, PfH2A.Z is enriched at the TSS only during active transcription in ring stage parasites. Thus, in contrast to other genes, temporal var gene regulation involves histone variant exchange at promoter nucleosomes. Sir2 histone deacetylases are important for var gene silencing and their yeast ortholog antagonises H2A.Z function in subtelomeric yeast genes. In immature P. falciparum parasites lacking Sir2A or Sir2B high var transcription levels correlate with enrichment of PfH2A.Z at the TSS. As Sir2A knock out parasites mature the var genes are silenced

Published

2011

20. Evaluation of the Antigenic Diversity of Placenta-Binding Plasmodium falciparum Variants and the Antibody Repertoire among Pregnant Women

Author

Hommel, M, Elliott, SR, Soma, V, Kelly, G, Fowkes, FJI, Chesson, JM, Duffy, MF, Bockhorst, J, Avril, M, Mueller, I, Raiko, A, Stanisic, DI, Rogerson, SJ, Smith, JD, Beeson, JG, Hommel, M, Elliott, SR, Soma, V, Kelly, G, Fowkes, FJI, Chesson, JM, Duffy, MF, Bockhorst, J, Avril, M, Mueller, I, Raiko, A, Stanisic, DI, Rogerson, SJ, Smith, JD, and Beeson, JG

Abstract

Pregnant women are infected by specific variants of Plasmodium falciparum that adhere and accumulate in the placenta. Using serological and molecular approaches, we assessed the global antigenic diversity of surface antigens expressed by placenta-binding isolates to better understand immunity to malaria in pregnancy and evolution of polymorphisms and to inform vaccine development. We found that placenta-binding isolates originating from all major regions where malaria occurs were commonly recognized by antibodies in different populations of pregnant women. There was substantial antigenic overlap and sharing of epitopes between isolates, including isolates from distant geographic locations, suggesting that there are limitations to antigenic diversity; however, differences between populations and isolates were also seen. Many women had cross-reactive antibodies and/or a broad repertoire of antibodies to different isolates. Studying VAR2CSA as the major antigen expressed by placenta-binding isolates, we identified antibody epitopes encoded by variable sequence blocks in the DBL3 domain. Analysis of global var2csa DBL3 sequences demonstrated that there was extensive sharing of variable blocks between Africa, Asia, Papua New Guinea, and Latin America, which likely contributes to the high level of antigenic overlap between different isolates. However, there was also evidence of geographic clustering of sequences and differences in VAR2CSA sequences between populations. The results indicate that there is limited antigenic diversity in placenta-binding isolates and may explain why immunity to malaria in pregnancy can be achieved after exposure during one pregnancy. Inclusion of a limited number of variants in a candidate vaccine may be sufficient for broad population coverage, but geographic considerations may also have to be included in vaccine design.

Published

2010

21. Characterization of VAR2CSA-deficient Plasmodium falciparum-infected erythrocytes selected for adhesion to the BeWo placental cell line

Author

Yosaatmadja, F, Andrews, KT, Duffy, MF, Brown, GV, Beeson, JG, Rogerson, SJ, Yosaatmadja, F, Andrews, KT, Duffy, MF, Brown, GV, Beeson, JG, and Rogerson, SJ

Abstract

BACKGROUND: Malaria in pregnancy is characterized by accumulation of infected erythrocytes (IE) in the placenta. The key ligand identified as mediating this process is a Plasmodium falciparum erythrocyte membrane protein 1 family member, termed VAR2CSA. VAR2CSA appears to be the main ligand responsible for adhesion to chondroitin sulphate A (CSA). Whether other PfEMP1 molecules can also mediate placental adhesion, independent of CSA binding, is unclear. METHODS: The parasite line CS2 carrying a disrupted var2csa gene (CS2KO) was selected for adhesion to the BeWo choriocarcinoma cell line, which has been proposed as a model for placental malaria. The selected and control IE were tested for adhesion to placental sections and flow cytometry was used to measure recognition of IE by three serum sets from malaria-exposed men and women. RESULTS: Wild-type CS2 adhere to BeWo and placental tissue via CSA. CS2KO IE were successfully selected for adhesion to BeWo, and adhered by a CSA-independent mechanism. They bound to immobilized ICAM-1 and CD36. BeWo-selected CS2KO bound at moderate levels to placental sections, but most binding was to placental villi rather than to the syncytiotrophoblast to which IE adherence occurs in vivo. This binding was inhibited by a blocking antibody to CD36 but not to ICAM-1. As expected, sera from malaria-exposed adults recognized CS2 IE in a gender and parity dependent manner. In one serum set, there was a similar but less pronounced pattern of antibody binding to selected CS2KO IE, but this was not seen in two others. One var gene, It4var19, was particularly abundant in the selected line and was detected as full length transcripts in BeWo-selected IE, but not unselected CS2KO. CONCLUSION: This study suggests that IE with characteristics similar to the CS2KO have a limited role in the pathogenesis of placental malaria. VAR2CSA appear to be the major ligand for placental adhesion, and could be the basis for a vaccine against pregnancy malaria.

Published

2008

22. Evidence that Plasmodium falciparum chromosome end clusters are cross-linked by protein and are the sites of both virulence gene silencing and activation

Author

Marty, AJ, Thompson, JK, Duffy, MF, Voss, TS, Cowman, AF, Crabb, BS, Marty, AJ, Thompson, JK, Duffy, MF, Voss, TS, Cowman, AF, and Crabb, BS

Abstract

The malaria parasite Plasmodium falciparum undergoes antigenic variation through allelic exclusion and variant expression of surface proteins encoded by the var gene family. Regulation of var genes is under epigenetic control and involves reversible silencing and activation that requires the physical repositioning of a var locus into a transcriptionally permissive zone of the nuclear periphery. P. falciparum chromosome ends appear to aggregate into large perinuclear clusters which house both subtelomeric and chromosome central var genes. In this study we further define the composition of telomeric clusters using fluorescent in situ hybridization, and provide evidence that chromosome end clusters are formed by cross-linking protein. In addition, we demonstrate that a subtelomeric reporter gene and a var gene remain within clusters regardless of their transcriptional status. Our findings support a model whereby a highly localized structure dedicated to the activation of a single var gene can be housed within a gene dense chromosome end cluster that is otherwise transcriptionally silent.

Published

2006

23. Broad analysis reveals a consistent pattern of var gene transcription in Plasmodium falciparum repeatedly selected for a defined adhesion phenotype

Author

Duffy, MF, Byrne, TJ, Elliott, SR, Wilson, DW, Rogerson, SJ, Beeson, JG, Noviyanti, R, Brown, GV, Duffy, MF, Byrne, TJ, Elliott, SR, Wilson, DW, Rogerson, SJ, Beeson, JG, Noviyanti, R, and Brown, GV

Abstract

Transcription of the majority of the members of the Plasmodium falciparum var multigene family were analysed in two isolates by a quantitative approach. Both of these isolates had been repeatedly selected for adhesion to chondroitin sulphate A (CSA) and one had also been selected for adhesion to hyaluronic acid (HA). These adhesion phenotypes are expressed by many parasites isolated from placentae and are associated with malaria disease in pregnancy. Increased transcription of the var gene var2csa, or its homologue IT4 var4, was associated with the CSA and HA adhesion phenotypes in all parasites suggesting that it was the dominant, if not the only, var gene that encoded adhesion to CSA in these allogeneic isolates. Some var genes were consistently transcribed at higher levels than others regardless of expressed adhesion phenotypes suggesting a transcriptional hierarchy. Unspliced or partial transcripts were detected for most var genes tested. These atypical var gene transcripts may have implications for the regulation of var gene transcription.

Published

2005

24. Heterochromatin silencing and locus repositioning linked to regulation of virulence genes in Plasmodium faiciparum

Author

Duraisingh, MT, Voss, TS, Marty, AJ, Duffy, MF, Good, RT, Thompson, JK, Freitas-Junior, LH, Scherf, A, Crabb, BS, Cowman, AF, Duraisingh, MT, Voss, TS, Marty, AJ, Duffy, MF, Good, RT, Thompson, JK, Freitas-Junior, LH, Scherf, A, Crabb, BS, and Cowman, AF

Abstract

The malaria parasite Plasmodium falciparum undergoes antigenic variation to evade host immune responses through switching expression of variant surface proteins encoded by the var gene family. We demonstrate that both a subtelomeric transgene and var genes are subject to reversible gene silencing. Var gene silencing involves the SIR complex as gene disruption of PfSIR2 results in activation of this gene family. We also demonstrate that perinuclear gene activation involves chromatin alterations and repositioning into a location that may be permissive for transcription. Together, this implies that locus repositioning and heterochromatic silencing play important roles in the epigenetic regulation of virulence genes in P. falciparum.

Published

2005

25. Transcription of multiple var genes by individual, trophozoite-stage Plasmodium falciparum cells expressing a chondroitin sulphate A binding phenotype

Author

Duffy, MF, Brown, GV, Basuki, W, Krejany, EO, Noviyanti, R, Cowman, AF, Reeder, JC, Duffy, MF, Brown, GV, Basuki, W, Krejany, EO, Noviyanti, R, Cowman, AF, and Reeder, JC

Abstract

In this study, we detected multiple var gene transcripts within single, mature trophozoite-infected red blood cells (iRBCs) bound to chondroitin sulphate A (CSA). Several of the var detected had previously been demonstrated to encode Plasmodium falciparum erythrocyte membrane protein-1 (PfEMP-1) variants with domains that mediated iRBC adhesion to receptors other than CSA. Parasites expressing the CSA-adherent phenotype transcribed far more of one var than of all others, but this gene was different from the two other var previously purported to encode adhesion to CSA. Previous work suggesting that only single var are transcribed by mature trophozoites needs re-examination in the light of these data from single, infected cells.

Published

2002

26. Increased intracapsular pressures after unstable slipped capital femoral epiphysis.

Author

Herrera-Soto JA, Duffy MF, Birnbaum MA, and Vander Have KL

Published

2008

27. A novel computational pipeline for var gene expression augments the discovery of changes in the Plasmodium falciparum transcriptome during transition from in vivo to short-term in vitro culture

Author

Andradi-Brown, C, Wichers-Misterek, JS, von Thien, H, Höppner, YD, Scholz, JAM, Hansson, H, Filtenborg Hocke, E, Gilberger, TW, Duffy, MF, Lavstsen, T, Baum, J, Otto, TD, Cunnington, AJ, Bachmann, A, Andradi-Brown, C, Wichers-Misterek, JS, von Thien, H, Höppner, YD, Scholz, JAM, Hansson, H, Filtenborg Hocke, E, Gilberger, TW, Duffy, MF, Lavstsen, T, Baum, J, Otto, TD, Cunnington, AJ, and Bachmann, A

Abstract

The pathogenesis of severe Plasmodium falciparum malaria involves cytoadhesive microvascular sequestration of infected erythrocytes, mediated by P. falciparum erythrocyte membrane protein 1 (PfEMP1). PfEMP1 variants are encoded by the highly polymorphic family of var genes, the sequences of which are largely unknown in clinical samples. Previously, we published new approaches for var gene profiling and classification of predicted binding phenotypes in clinical P. falciparum isolates (Wichers et al., 2021), which represented a major technical advance. Building on this, we report here a novel method for var gene assembly and multidimensional quantification from RNA-sequencing that outperforms the earlier approach of Wichers et al., 2021, on both laboratory and clinical isolates across a combination of metrics. Importantly, the tool can interrogate the var transcriptome in context with the rest of the transcriptome and can be applied to enhance our understanding of the role of var genes in malaria pathogenesis. We applied this new method to investigate changes in var gene expression through early transition of parasite isolates to in vitro culture, using paired sets of ex vivo samples from our previous study, cultured for up to three generations. In parallel, changes in non-polymorphic core gene expression were investigated. Modest but unpredictable var gene switching and convergence towards var2csa were observed in culture, along with differential expression of 19% of the core transcriptome between paired ex vivo and generation 1 samples. Our results cast doubt on the validity of the common practice of using short-term cultured parasites to make inferences about in vivo phenotype and behaviour.

28. Usefulness of electromyography compared to computed tomography scans in pedicle screw placement.

Author

Duffy MF, Phillips JH, Knapp DR, Herrera-Soto JA, Duffy, Michael F, Phillips, Jonathan H, Knapp, Dennis R, and Herrera-Soto, Jose Antonio

Abstract

Study Design: This is a retrospective analysis of 30 pediatric deformity surgeries. Objective: The purpose of this study was to evaluate the accuracy of neuromonitoring in comparison to postoperative computed tomography scans for pedicle screw position. Summary Of Background Data: Triggered electromyography potentials in aiding the placement of lumbar pedicle screws are considered useful; however, this method is less accepted in thoracic screw placement. Methods: Thirty pediatric deformity surgeries were reviewed. All screws were placed using fluoroscopic assistance. Electromyography data were obtained on all screws. Every patient underwent postoperative computed tomography scanning. Computed tomography scans were assessed by all authors, and each screw was classified. Sensitivity, specificity, negative predictive value, and likelihood ratios were determined for the cut-off value of an electromyography > or =6 mA. Results: A total of 329 screws were reviewed. No complications occurred. An overall accuracy of 93% was obtained. No retained screw had greater than 2 mm medial pedicle wall breach. Nine screws were removed intraoperatively due to medial breach. The mean electromyography potential for all classes of screws was not statistically different (P > 0.1). The negative predictive value of the test was 0.92 in the thoracic spine and 0.93 in the lumbar spine. The negative likelihood ratios were 0.96 and 0.35 for the thoracic and lumbar spines respectively, and the positive likelihood ratio was 1.4 for the thoracic spine and 12.5 for the lumbar spine. Conclusion: Thoracic and lumbar pedicle screws are safe surgical options in the treatment of pediatric scoliosis. Comparison of electromyography potentials and postoperative computed tomography scans showed no statistically significant difference for all classes of screws. The likelihood ratio for electromyography testing was more clinically significant in the lumbar spine. A triggered electromyography value greater than or equal to 6 mA has a high likelihood of that screw being in the "safe zone." However, there is no true electromyography cut-off value that guarantees accurate placement and avoidance of neurologic injury. [ABSTRACT FROM AUTHOR]

Published

2010

29. Author Correction: Population genomics of virulence genes of Plasmodium falciparum in clinical isolates from Uganda.

Author

Ruybal-Pesántez S, Tiedje KE, Tonkin-Hill G, Rask TS, Kamya MR, Greenhouse B, Dorsey G, Duffy MF, and Day KP

Published

2024

30. A systems serology approach to identifying key antibody correlates of protection from cerebral malaria in Malawian children.

Author

Walker IS, Dini S, Aitken EH, Damelang T, Hasang W, Alemu A, Jensen ATR, Rambhatla JS, Opi DH, Duffy MF, Takashima E, Harawa V, Tsuboi T, Simpson JA, Mandala W, Taylor TE, Seydel KB, Chung AW, and Rogerson SJ

Subjects

Humans, Malawi, Child, Preschool, Male, Female, Child, Infant, Intercellular Adhesion Molecule-1 immunology, Endothelial Protein C Receptor immunology, Phagocytosis, Erythrocytes parasitology, Erythrocytes immunology, Malaria, Falciparum immunology, Antigens, Protozoan immunology, Malaria, Cerebral immunology, Antibodies, Protozoan immunology, Antibodies, Protozoan blood, Protozoan Proteins immunology, Plasmodium falciparum immunology

Abstract

Background: Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) proteins are expressed on the surface of infected erythrocytes, mediating parasite sequestration in the vasculature. PfEMP1 is a major target of protective antibodies, but the features of the antibody response are poorly defined., Methods: In Malawian children with cerebral or uncomplicated malaria, we characterized the antibody response to 39 recombinant PfEMP1 Duffy binding like (DBL) domains or cysteine-rich interdomain regions (CIDRs) in detail, including measures of antibody classes, subclasses, and engagement with Fcγ receptors and complement. Using elastic net regularized logistic regression, we identified a combination of seven antibody targets and Fc features that best distinguished between children with cerebral and uncomplicated malaria. To confirm the role of the selected targets and Fc features, we measured antibody-dependent neutrophil and THP-1 cell phagocytosis of intercellular adhesion molecule-1 (ICAM-1) and endothelial protein C (EPCR) co-binding infected erythrocytes., Results: The selected features distinguished between children with cerebral and uncomplicated malaria with 87% accuracy (median, 80-96% interquartile range) and included antibody to well-characterized DBLβ3 domains and a less well-characterized CIDRγ12 domain. The abilities of antibodies to engage C1q and FcγRIIIb, rather than levels of IgG, correlated with protection. In line with a role of FcγRIIIb binding antibodies to DBLβ3 domains, antibody-dependent neutrophil phagocytosis of ICAM-1 and EPCR co-binding IE was higher in uncomplicated malaria (15% median, 8-38% interquartile range) compared to cerebral malaria (7%, 30-15%, p < 0.001)., Conclusions: Antibodies associated with protection from cerebral malaria target a subset of PfEMP1 domains. The Fc features of protective antibody response include engagement of FcγRIIIb and C1q, and ability to induce antibody-dependent neutrophil phagocytosis of infected erythrocytes. Identifying the targets and Fc features of protective immunity could facilitate the development of PfEMP1-based therapeutics for cerebral malaria., (© 2024. The Author(s).)

Published

2024

31. An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome.

Author

Snyder A, Ryan VH, Hawrot J, Lawton S, Ramos DM, Qi YA, Johnson KR, Reed X, Johnson NL, Kollasch AW, Duffy MF, VandeVrede L, Cochran JN, Miller BL, Toro C, Bielekova B, Marks DS, Yokoyama JS, Kwan JY, Cookson MR, and Ward ME

Subjects

Humans, Male, Mutation genetics, Female, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis pathology, Neurons metabolism, Neurons pathology, Frontotemporal Dementia genetics, Frontotemporal Dementia pathology, Middle Aged, Aged, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Annexins genetics

Abstract

Introduction: Variants of uncertain significance (VUS) surged with affordable genetic testing, posing challenges for determining pathogenicity. We examine the pathogenicity of a novel VUS P93S in Annexin A11 (ANXA11) - an amyotrophic lateral sclerosis/frontotemporal dementia-associated gene - in a corticobasal syndrome kindred. Established ANXA11 mutations cause ANXA11 aggregation, altered lysosomal-RNA granule co-trafficking, and transactive response DNA binding protein of 43 kDa (TDP-43) mis-localization., Methods: We described the clinical presentation and explored the phenotypic diversity of ANXA11 variants. P93S's effect on ANXA11 function and TDP-43 biology was characterized in induced pluripotent stem cell-derived neurons alongside multiomic neuronal and microglial profiling., Results: ANXA11 mutations were linked to corticobasal syndrome cases. P93S led to decreased lysosome colocalization, neuritic RNA, and nuclear TDP-43 with cryptic exon expression. Multiomic microglial signatures implicated immune dysregulation and interferon signaling pathways., Discussion: This study establishes ANXA11 P93S pathogenicity, broadens the phenotypic spectrum of ANXA11 mutations, underscores neuronal and microglial dysfunction in ANXA11 pathophysiology, and demonstrates the potential of cellular models to determine variant pathogenicity., Highlights: ANXA11 P93S is a pathogenic variant. Corticobasal syndrome is part of the ANXA11 phenotypic spectrum. Hybridization chain reaction fluorescence in situ hybridization (HCR FISH) is a new tool for the detection of cryptic exons due to TDP-43-related loss of splicing regulation. Microglial ANXA11 and related immune pathways are important drivers of disease. Cellular models are powerful tools for adjudicating variants of uncertain significance., (© 2024 The Author(s). Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

32. Alpha-synuclein inclusion responsive microglia are resistant to CSF1R inhibition.

Author

Stoll AC, Kemp CJ, Patterson JR, Kubik M, Kuhn N, Benskey M, Duffy MF, Luk KC, and Sortwell CE

Subjects

Animals, Rats, Male, Pyrroles pharmacology, Aminopyridines pharmacology, Inclusion Bodies metabolism, Inclusion Bodies pathology, Substantia Nigra metabolism, Substantia Nigra pathology, Substantia Nigra drug effects, Disease Models, Animal, Microglia metabolism, Microglia drug effects, alpha-Synuclein metabolism, Receptors, Granulocyte-Macrophage Colony-Stimulating Factor antagonists & inhibitors, Receptors, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Rats, Inbred F344

Abstract

Background: Parkinson's disease (PD) is a neurodegenerative disorder that is characterized by the presence of proteinaceous alpha-synuclein (α-syn) inclusions (Lewy bodies), markers of neuroinflammation and the progressive loss of nigrostriatal dopamine (DA) neurons. These pathological features can be recapitulated in vivo using the α-syn preformed fibril (PFF) model of synucleinopathy. We have previously determined that microglia proximal to PFF-induced nigral α-syn inclusions increase in soma size, upregulate major-histocompatibility complex-II (MHC-II) expression, and increase expression of a suite of inflammation-associated transcripts. This microglial response is observed months prior to degeneration, suggesting that microglia reacting to α-syn inclusion may contribute to neurodegeneration and could represent a potential target for novel therapeutics. The goal of this study was to determine whether colony stimulating factor-1 receptor (CSF1R)-mediated microglial depletion impacts the magnitude of α-syn aggregation, nigrostriatal degeneration, or the response of microglial in the context of the α-syn PFF model., Methods: Male Fischer 344 rats were injected intrastriatally with either α-syn PFFs or saline. Rats were continuously administered Pexidartinib (PLX3397B, 600 mg/kg), a CSF1R inhibitor, to deplete microglia for a period of either 2 or 6 months., Results: CSF1R inhibition resulted in significant depletion (~ 43%) of ionized calcium-binding adapter molecule 1 immunoreactive (Iba-1ir) microglia within the SNpc. However, CSF1R inhibition did not impact the increase in microglial number, soma size, number of MHC-II immunoreactive microglia or microglial expression of Cd74, Cxcl10, Rt-1a2, Grn, Csf1r, Tyrobp, and Fcer1g associated with phosphorylated α-syn (pSyn) nigral inclusions. Further, accumulation of pSyn and degeneration of nigral neurons was not impacted by CSF1R inhibition. Paradoxically, long term CSF1R inhibition resulted in increased soma size of remaining Iba-1ir microglia in both control and PFF rats, as well as expression of MHC-II in extranigral regions., Conclusions: Collectively, our results suggest that CSF1R inhibition does not impact the microglial response to nigral pSyn inclusions and that CSF1R inhibition is not a viable disease-modifying strategy for PD., (© 2024. The Author(s).)

Published

2024

33. A novel computational pipeline for var gene expression augments the discovery of changes in the Plasmodium falciparum transcriptome during transition from in vivo to short-term in vitro culture.

Author

Andradi-Brown C, Wichers-Misterek JS, von Thien H, Höppner YD, Scholz JAM, Hansson H, Filtenborg Hocke E, Gilberger TW, Duffy MF, Lavstsen T, Baum J, Otto TD, Cunnington AJ, and Bachmann A

Subjects

Humans, Transcriptome, Benchmarking, Emotions, Plasmodium falciparum genetics, Malaria, Falciparum

Abstract

The pathogenesis of severe Plasmodium falciparum malaria involves cytoadhesive microvascular sequestration of infected erythrocytes, mediated by P. falciparum erythrocyte membrane protein 1 (PfEMP1). PfEMP1 variants are encoded by the highly polymorphic family of var genes, the sequences of which are largely unknown in clinical samples. Previously, we published new approaches for var gene profiling and classification of predicted binding phenotypes in clinical P. falciparum isolates (Wichers et al., 2021), which represented a major technical advance. Building on this, we report here a novel method for var gene assembly and multidimensional quantification from RNA-sequencing that outperforms the earlier approach of Wichers et al., 2021, on both laboratory and clinical isolates across a combination of metrics. Importantly, the tool can interrogate the var transcriptome in context with the rest of the transcriptome and can be applied to enhance our understanding of the role of var genes in malaria pathogenesis. We applied this new method to investigate changes in var gene expression through early transition of parasite isolates to in vitro culture, using paired sets of ex vivo samples from our previous study, cultured for up to three generations. In parallel, changes in non-polymorphic core gene expression were investigated. Modest but unpredictable var gene switching and convergence towards var2csa were observed in culture, along with differential expression of 19% of the core transcriptome between paired ex vivo and generation 1 samples. Our results cast doubt on the validity of the common practice of using short-term cultured parasites to make inferences about in vivo phenotype and behaviour., Competing Interests: CA, JW, Hv, YH, JS, HH, EF, TG, MD, TL, JB, TO, AC, AB No competing interests declared, (© 2023, Andradi-Brown et al.)

Published

2024

34. Transcriptomic profiling of early synucleinopathy in rats induced with preformed fibrils.

Author

Patterson JR, Kochmanski J, Stoll AC, Kubik M, Kemp CJ, Duffy MF, Thompson K, Howe JW, Cole-Strauss A, Kuhn NC, Miller KM, Nelson S, Onyekpe CU, Beck JS, Counts SE, Bernstein AI, Steece-Collier K, Luk KC, and Sortwell CE

Abstract

Examination of early phases of synucleinopathy when inclusions are present, but long before neurodegeneration occurs, is critical to both understanding disease progression and the development of disease modifying therapies. The rat alpha-synuclein (α-syn) preformed fibril (PFF) model induces synchronized synucleinopathy that recapitulates the pathological features of Parkinson's disease (PD) and can be used to study synucleinopathy progression. In this model, phosphorylated α-syn (pSyn) inclusion-containing neurons and reactive microglia (major histocompatibility complex-II immunoreactive) peak in the substantia nigra pars compacta (SNpc) months before appreciable neurodegeneration. However, it remains unclear which specific genes are driving these phenotypic changes. To identify transcriptional changes associated with early synucleinopathy, we used laser capture microdissection of the SNpc paired with RNA sequencing (RNASeq). Precision collection of the SNpc allowed for the assessment of differential transcript expression in the nigral dopamine neurons and proximal glia. Transcripts upregulated in early synucleinopathy were mainly associated with an immune response, whereas transcripts downregulated were associated with neurotransmission and the dopamine pathway. A subset of 29 transcripts associated with neurotransmission/vesicular release and the dopamine pathway were verified in a separate cohort of males and females to confirm reproducibility. Within this subset, fluorescent in situ hybridization (FISH) was used to localize decreases in the Syt1 and Slc6a3 transcripts to pSyn inclusion-containing neurons. Identification of transcriptional changes in early synucleinopathy provides insight into the molecular mechanisms driving neurodegeneration., (© 2024. The Author(s).)

Published

2024

35. The P. falciparum alternative histones Pf H2A.Z and Pf H2B.Z are dynamically acetylated and antagonized by PfSir2 histone deacetylases at heterochromatin boundaries.

Author

Azizan S, Selvarajah SA, Tang J, Jeninga MD, Schulz D, Pareek K, Herr T, Day KP, De Koning-Ward TF, Petter M, and Duffy MF

Subjects

Acetylation, Histone Deacetylases genetics, Histone Deacetylases metabolism, Gene Expression Regulation, Gene Silencing, Promoter Regions, Genetic, Humans, Malaria, Falciparum parasitology, Plasmodium falciparum genetics, Plasmodium falciparum enzymology, Histones metabolism, Histones genetics, Protozoan Proteins genetics, Protozoan Proteins metabolism, Heterochromatin metabolism, Heterochromatin genetics

Abstract

Importance: The malaria parasite Plasmodium falciparum relies on variant expression of members of multi-gene families as a strategy for environmental adaptation to promote parasite survival and pathogenesis. These genes are located in transcriptionally silenced DNA regions. A limited number of these genes escape gene silencing, and switching between them confers variant fitness on parasite progeny. Here, we show that PfSir2 histone deacetylases antagonize DNA-interacting acetylated alternative histones at the boundaries between active and silent DNA. This finding implicates acetylated alternative histones in the mechanism regulating P. falciparum variant gene silencing and thus malaria pathogenesis. This work also revealed that acetylation of alternative histones at promoters is dynamically associated with promoter activity across the genome, implicating acetylation of alternative histones in gene regulation genome wide. Understanding mechanisms of gene regulation in P. falciparum may aid in the development of new therapeutic strategies for malaria, which killed 619,000 people in 2021., Competing Interests: The authors declare no conflict of interest.

Published

2023

36. Antibody to Plasmodium falciparum Variant Surface Antigens, var Gene Transcription, and ABO Blood Group in Children With Severe or Uncomplicated Malaria.

Author

Barua P, Duffy MF, Manning L, Laman M, Davis TME, Mueller I, Haghiri A, Simpson JA, Beeson JG, and Rogerson SJ

Subjects

Humans, Child, Plasmodium falciparum genetics, ABO Blood-Group System genetics, Convalescence, Antigens, Protozoan genetics, Protozoan Proteins genetics, Antigens, Surface, Transcription, Genetic, Antibodies, Protozoan, Malaria, Falciparum, Malaria

Abstract

Background: Antibodies to variant surface antigens (VSAs) such as Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1) may vary with malaria severity. The influence of ABO blood group on antibody development is not understood., Methods: Immunoglobulin G antibodies to VSAs in Papua New Guinean children with severe (n = 41) or uncomplicated (n = 30) malaria were measured by flow cytometry using homologous P falciparum isolates. Isolates were incubated with ABO-matched homologous and heterologous acute and convalescent plasma. RNA was used to assess var gene transcription., Results: Antibodies to homologous, but not heterologous, isolates were boosted in convalescence. The relationship between antibody and severity varied by blood group. Antibodies to VSAs were similar in severe and uncomplicated malaria at presentation, higher in severe than uncomplicated malaria in convalescence, and higher in children with blood group O than other children. Six var gene transcripts best distinguished severe from uncomplicated malaria, including UpsA and 2 CIDRα1 domains., Conclusions: ABO blood group may influence antibody acquisition to VSAs and susceptibility to severe malaria. Children in Papua New Guinea showed little evidence of acquisition of cross-reactive antibodies following malaria. Var gene transcripts in Papua New Guinean children with severe malaria were similar to those reported from Africa., Competing Interests: Potential conflicts of interest. The authors: No reported conflicts of interest. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2023. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2023

37. Divergent patterns of healthy aging across human brain regions at single-cell resolution reveal links to neurodegenerative disease.

Author

Duffy MF, Ding J, Langston RG, Shah SI, Nalls MA, Scholz SW, Whitaker DT, Auluck PK, Marenco S, Gibbs JR, and Cookson MR

Abstract

Age is a major common risk factor underlying neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, and amyotrophic lateral sclerosis. Previous studies reported that chronological age correlates with differential gene expression across different brain regions. However, prior datasets have not disambiguated whether expression associations with age are due to changes in cell numbers and/or gene expression per cell. In this study, we leveraged single nucleus RNA-sequencing (snRNAseq) to examine changes in cell proportions and transcriptomes in four different brain regions, each from 12 donors aged 20-30 years (young) or 60-85 years (old). We sampled 155,192 nuclei from two cortical regions (entorhinal cortex and middle temporal gyrus) and two subcortical regions (putamen and subventricular zone) relevant to neurodegenerative diseases or the proliferative niche. We found no changes in cellular composition of different brain regions with healthy aging. Surprisingly, we did find that each brain region has a distinct aging signature, with only minor overlap in differentially associated genes across regions. Moreover, each cell type shows distinct age-associated expression changes, including loss of protein synthesis genes in cortical inhibitory neurons, axonogenesis genes in excitatory neurons and oligodendrocyte precursor cells, enhanced gliosis markers in astrocytes and disease-associated markers in microglia, and genes critical for neuron-glia communication. Importantly, we find cell type-specific enrichments of age associations with genes nominated by Alzheimer's disease and Parkinson's disease genome-wide association studies (GWAS), such as apolipoprotein E ( APOE ), and leucine-rich repeat kinase 2 ( LRRK2 ) in microglia that are independent of overall expression levels across cell types. We present this data as a new resource which highlights, first, region- and cell type-specific transcriptomic changes in healthy aging that may contribute to selective vulnerability and, second, provide context for testing GWAS-nominated disease risk genes in relevant subtypes and developing more targeted therapeutic strategies. The data is readily accessible without requirement for extensive computational support in a public website, https://brainexp-hykyffa56a-uc.a.run.app/., Competing Interests: M.A.N. and S.W.S.’s participation in this project was part of a competitive contract awarded to Data Tecnica International LLC by the National Institutes of Health to support open science research. M.A.N. also currently serves on the scientific advisory board for Character Bio Inc. and Neuron23 Inc. S.W.S. serves on the scientific advisory board of the Lewy Body Dementia Association and the Multiple System Atrophy Coalition. S.W.S. is an editorial board member for the Journal of Parkinson’s Disease and JAMA Neurology. S.W.S. receives research support from Cerevel Therapeutics.

Published

2023

38. The exception that proves the rule: Virulence gene expression at the onset of Plasmodium falciparum blood stage infections.

Author

Wichers-Misterek JS, Krumkamp R, Held J, von Thien H, Wittmann I, Höppner YD, Ruge JM, Moser K, Dara A, Strauss J, Esen M, Fendel R, Sulyok Z, Jeninga MD, Kremsner PG, Sim BKL, Hoffman SL, Duffy MF, Otto TD, Gilberger TW, Silva JC, Mordmüller B, Petter M, and Bachmann A

Subjects

Animals, Humans, Gene Expression, Plasmodium falciparum genetics, Sporozoites, Virulence genetics, Culicidae genetics, Malaria, Malaria, Falciparum genetics, Malaria, Falciparum parasitology, Parasites genetics

Abstract

Controlled human malaria infections (CHMI) are a valuable tool to study parasite gene expression in vivo under defined conditions. In previous studies, virulence gene expression was analyzed in samples from volunteers infected with the Plasmodium falciparum (Pf) NF54 isolate, which is of African origin. Here, we provide an in-depth investigation of parasite virulence gene expression in malaria-naïve European volunteers undergoing CHMI with the genetically distinct Pf 7G8 clone, originating in Brazil. Differential expression of var genes, encoding major virulence factors of Pf, PfEMP1s, was assessed in ex vivo parasite samples as well as in parasites from the in vitro cell bank culture that was used to generate the sporozoites (SPZ) for CHMI (Sanaria PfSPZ Challenge (7G8)). We report broad activation of mainly B-type subtelomeric located var genes at the onset of a 7G8 blood stage infection in naïve volunteers, mirroring the NF54 expression study and suggesting that the expression of virulence-associated genes is generally reset during transmission from the mosquito to the human host. However, in 7G8 parasites, we additionally detected a continuously expressed single C-type variant, Pf7G8&#95;040025600, that was most highly expressed in both pre-mosquito cell bank and volunteer samples, suggesting that 7G8, unlike NF54, maintains expression of some previously expressed var variants during transmission. This suggests that in a new host, the parasite may preferentially express the variants that previously allowed successful infection and transmission. Trial registration: ClinicalTrials.gov - NCT02704533; 2018-004523-36., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright: © 2023 Wichers-Misterek et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

39. Microglial depletion does not impact alpha-synuclein aggregation or nigrostriatal degeneration in the rat preformed fibril model.

Author

Stoll AC, Kemp CJ, Patterson JR, Kubik M, Kuhn N, Benskey M, Duffy MF, Luk K, and Sortwell CE

Abstract

Background: Parkinson's disease (PD) is a neurodegenerative disorder that is characterized by the presence of proteinaceous alpha-synuclein (α-syn) inclusions (Lewy bodies), markers of neuroinflammation and the progressive loss of nigrostriatal dopamine (DA) neurons. These pathological features can be recapitulated in vivo using the α-syn preformed fibril (PFF) model of synucleinopathy. We have previously described the time course of microglial major-histocompatibility complex-II (MHC-II) expression and alterations in microglia morphology in the PFF model in rats. Specifically, the peaks of α-syn inclusion formation, MHC-II expression, and reactive morphology in the substantia nigra pars compacta (SNpc) all occur two months post PFF injection, months before neurodegeneration occurs. These results suggest that activated microglia may contribute to neurodegeneration and could represent a potential target for novel therapeutics. The goal of this study was to determine whether microglial depletion could impact the magnitude of α-syn aggregation, nigrostriatal degeneration, or related microglial activation during the α-syn PFF model., Methods: Male Fischer 344 rats were injected intrastriatally with either α-syn PFFs or saline. Rats were continuously administered Pexidartinib (PLX3397B, 600mg/kg), a colony stimulating factor-1 receptor (CSF1R) inhibitor, to deplete microglia for a period of either two or six months., Results: PLX3397B administration resulted in significant depletion (45-53%) of ionized calcium-binding adapter molecule 1 immunoreactive (Iba-1ir) microglia within the SNpc. Microglial depletion did not impact accumulation of phosphorylated α-syn (pSyn) within SNpc neurons and did not alter pSyn associated microglial reactivity or expression of MHC-II. Further, microglial depletion did not impact SNpc neuron degeneration. Paradoxically, long term microglial depletion resulted in increased soma size of remaining microglia in both control and PFF rats, as well as expression of MHC-II in extranigral regions., Conclusions: Collectively, our results suggest that microglial depletion is not a viable disease-modifying strategy for PD and that partial microglial depletion can induce a heightened proinflammatory state in remaining microglia., Competing Interests: CES receives funding from Takeda Inc. all remaining authors declare they have no competing interests.

Published

2023

40. Plasmodium falciparum gametocytes display global chromatin remodelling during sexual differentiation.

Author

Jeninga MD, Tang J, Selvarajah SA, Maier AG, Duffy MF, and Petter M

Subjects

Animals, Male, Female, Humans, Plasmodium falciparum, Histones genetics, Heterochromatin genetics, Heterochromatin metabolism, Chromatin Assembly and Disassembly, Sex Differentiation genetics, Chromatin genetics, Chromatin metabolism, Protozoan Proteins genetics, Protozoan Proteins metabolism, Malaria, Falciparum parasitology, Parasites genetics, Parasites metabolism

Abstract

Background: The protozoan malaria parasite Plasmodium falciparum has a complex life cycle during which it needs to differentiate into multiple morphologically distinct life forms. A key process for transmission of the disease is the development of male and female gametocytes in the human blood, yet the mechanisms determining sexual dimorphism in these haploid, genetically identical sexual precursor cells remain largely unknown. To understand the epigenetic program underlying the differentiation of male and female gametocytes, we separated the two sexual forms by flow cytometry and performed RNAseq as well as comprehensive ChIPseq profiling of several histone variants and modifications., Results: We show that in female gametocytes the chromatin landscape is globally remodelled with respect to genome-wide patterns and combinatorial usage of histone variants and histone modifications. We identified sex specific differences in heterochromatin distribution, implicating exported proteins and ncRNAs in sex determination. Specifically in female gametocytes, the histone variants H2A.Z/H2B.Z were highly enriched in H3K9me3-associated heterochromatin. H3K27ac occupancy correlated with stage-specific gene expression, but in contrast to asexual parasites this was unlinked to H3K4me3 co-occupancy at promoters in female gametocytes., Conclusions: Collectively, we defined novel combinatorial chromatin states differentially organising the genome in gametocytes and asexual parasites and unravelled fundamental, sex-specific differences in the epigenetic code. Our chromatin maps represent an important resource for future understanding of the mechanisms driving sexual differentiation in P. falciparum., (© 2023. The Author(s).)

Published

2023

41. Characterisation of PfCZIF1 and PfCZIF2 in Plasmodium falciparum asexual stages.

Author

Balbin JM, Heinemann GK, Yeoh LM, Gilberger TW, Armstrong M, Duffy MF, Gilson PR, and Wilson DW

Subjects

Animals, Humans, Protozoan Proteins metabolism, Merozoites metabolism, Membrane Proteins genetics, Erythrocytes parasitology, Plasmodium falciparum metabolism, Malaria, Falciparum parasitology

Abstract

Plasmodium falciparum exerts strong temporal control of gene expression across its lifecycle. Proteins expressed exclusively during late schizogony of blood stages, for example, often have a role in facilitating merozoite invasion of the host red blood cell (RBC), through merozoite development, egress, invasion or early establishment of infection in the RBC. Here, we characterise P. falciparum C3H1 zinc finger 1 (PfCZIF1, Pf3D7&#95;1468400) and P. falciparum C3H1 zinc finger 2 (PfCZIF2, Pf3D7&#95;0818100) which we identified as the only C3H1-type zinc finger proteins with peak expression at schizogony. Previous studies reported that antibodies against PfCZIF1 inhibit merozoite invasion, suggesting this protein may have a potential role during RBC invasion. We show using C-terminal truncations and gene knockouts of each of Pfczif1 and Pfczif2 that neither are essential for blood stage growth. However, they could not both be knocked out simultaneously, suggesting that at least one is needed for parasite growth in vitro. Immunofluorescence localisation of PfCZIF1 and PfCZIF2 indicated that both proteins occur in discrete foci on the periphery of the parasite's cytosol and biochemical assays suggest they are peripherally associated to a membrane. Transcriptomic analyses for the C-terminal truncation mutants reveal no significant expression perturbations with PfCZIF1 truncation. However, modification of PfCZIF2 appears to modify the expression for some exported proteins including PfKAHRP. This study does not support a role for PfCZIF1 or PfCZIF2 in merozoite invasion of the RBC and suggests that these proteins may help regulate the expression of proteins exported into the RBC cytosol after merozoite invasion., (Copyright © 2022 Australian Society for Parasitology. Published by Elsevier Ltd. All rights reserved.)

Published

2023

42. Relationship of circulating Plasmodium falciparum lifecycle stage to circulating parasitemia and total parasite biomass.

Author

Duffy MF, Tonkin-Hill GQ, Trianty L, Noviyanti R, Nguyen HHT, Rambhatla JS, McConville MJ, Rogerson SJ, Brown GV, Price RN, Anstey NM, Day KP, and Papenfuss AT

Subjects

Animals, Biomass, Life Cycle Stages, Parasitemia diagnosis, Parasitemia parasitology, Plasmodium falciparum, Malaria, Falciparum diagnosis, Malaria, Falciparum parasitology, Parasites

Published

2022

43. Beta2-adrenoreceptor agonist clenbuterol produces transient decreases in alpha-synuclein mRNA but no long-term reduction in protein.

Author

Patterson JR, Hirst WD, Howe JW, Russell CP, Cole-Strauss A, Kemp CJ, Duffy MF, Lamp J, Umstead A, Kubik M, Stoll AC, Vega IE, Steece-Collier K, Chen Y, Campbell AC, Nezich CL, Glajch KE, and Sortwell CE

Abstract

β2-adrenoreceptor (β2AR) agonists have been associated with a decreased risk of developing Parkinson's disease (PD) and are hypothesized to decrease expression of both alpha-synuclein mRNA (Snca) and protein (α-syn). Effects of β2AR agonist clenbuterol on the levels of Snca mRNA and α-syn protein were evaluated in vivo (rats and mice) and in rat primary cortical neurons by two independent laboratories. A modest decrease in Snca mRNA in the substantia nigra was observed after a single acute dose of clenbuterol in rats, however, this decrease was not maintained after multiple doses. In contrast, α-syn protein levels remained unchanged in both single and multiple dosing paradigms. Furthermore, clenbuterol did not decrease Snca in cultured rat primary cortical neurons, or decrease Snca or α-syn in mice. Additionally, compared to the single-dose paradigm, repeat dosing resulted in substantially lower levels of clenbuterol in plasma and brain tissue in rodents. Based on our observations of a transient decrease in Snca and no effect on α-syn protein in this preclinical study, these data support the conclusion that clenbuterol is not likely a viable disease-modifying strategy for PD., (© 2022. The Author(s).)

Published

2022

44. The Putative Bromodomain Protein PfBDP7 of the Human Malaria Parasite Plasmodium Falciparum Cooperates With PfBDP1 in the Silencing of Variant Surface Antigen Expression.

Author

Quinn JE, Jeninga MD, Limm K, Pareek K, Meißgeier T, Bachmann A, Duffy MF, and Petter M

Abstract

Epigenetic regulation is a critical mechanism in controlling virulence, differentiation, and survival of the human malaria parasite Plasmodium (P.) falciparum . Bromodomain proteins contribute to this process by binding to acetylated lysine residues of histones and thereby targeting the gene regulatory machinery to gene promoters. A protein complex containing the P. falciparum bromodomain proteins (PfBDP) 1 and PfBDP2 (BDP1/BDP2 core complex) was previously shown to play an essential role for the correct transcription of invasion related genes. Here, we performed a functional characterization of a third component of this complex, which we dubbed PfBDP7, because structural modelling predicted a typical bromodomain fold. We confirmed that PfBDP7 is a nuclear protein that interacts with PfBDP1 at invasion gene promoters in mature schizont stage parasites and contributes to their transcription. Although partial depletion of PfBDP7 showed no significant effect on parasite viability, conditional knock down of either PfBDP7 or PfBDP1 resulted in the de-repression of variant surface antigens (VSA), which are important pathogenicity factors. This de-repression was evident both on mRNA and protein level. To understand the underlying mechanism, we mapped the genome wide binding sites of PfBDP7 by ChIPseq and showed that in early schizonts, PfBDP7 and PfBDP1 are commonly enriched in heterochromatic regions across the gene body of all VSA families, including genes coding for PfEMP1, RIFIN, STEVOR, and PfMC-2TM. This suggests that PfBDP7 and PfBDP1 contribute to the silencing of VSAs by associating with heterochromatin. In conclusion, we identified PfBDP7 as a chromatin binding protein that is a constitutive part of the P. falciparum BDP1/BDP2 core complex and established PfBDP1 and PfBDP7 as novel players in the silencing of heterochromatin regulated virulence gene families of the malaria parasite P. falciparum ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Quinn, Jeninga, Limm, Pareek, Meißgeier, Bachmann, Duffy and Petter.)

Published

2022

45. An accurate method for identifying recent recombinants from unaligned sequences.

Author

Feng Q, Tiedje KE, Ruybal-Pesántez S, Tonkin-Hill G, Duffy MF, Day KP, Shim H, and Chan YB

Subjects

Plasmodium falciparum genetics, Software, Evolution, Molecular, Protozoan Proteins genetics, Genetic Variation

Abstract

Motivation: Recombination is a fundamental process in molecular evolution, and the identification of recombinant sequences is thus of major interest. However, current methods for detecting recombinants are primarily designed for aligned sequences. Thus, they struggle with analyses of highly diverse genes, such as the var genes of the malaria parasite Plasmodium falciparum, which are known to diversify primarily through recombination., Results: We introduce an algorithm to detect recent recombinant sequences from a dataset without a full multiple alignment. Our algorithm can handle thousands of gene-length sequences without the need for a reference panel. We demonstrate the accuracy of our algorithm through extensive numerical simulations; in particular, it maintains its effectiveness in the presence of insertions and deletions. We apply our algorithm to a dataset of 17 335 DBLα types in var genes from Ghana, observing that sequences belonging to the same ups group or domain subclass recombine amongst themselves more frequently, and that non-recombinant DBLα types are more conserved than recombinant ones., Availability and Implementation: Source code is freely available at https://github.com/qianfeng2/detREC&#95;program., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2022. Published by Oxford University Press.)

Published

2022

46. Identifying Targets of Protective Antibodies against Severe Malaria in Papua, Indonesia, Using Locally Expressed Domains of Plasmodium falciparum Erythrocyte Membrane Protein 1.

Author

Rambhatla JS, Tonkin-Hill GQ, Takashima E, Tsuboi T, Noviyanti R, Trianty L, Sebayang BF, Lampah DA, Marfurt J, Price RN, Anstey NM, Papenfuss AT, Damelang T, Chung AW, Duffy MF, and Rogerson SJ

Subjects

Adult, Antibodies, Protozoan, Child, Erythrocytes, Humans, Indonesia, Membrane Proteins genetics, Plasmodium falciparum genetics, Protozoan Proteins genetics, Malaria, Malaria, Falciparum

Abstract

Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1), a diverse family of multidomain proteins expressed on the surface of malaria-infected erythrocytes, is an important target of protective immunity against malaria. Our group recently studied transcription of the var genes encoding PfEMP1 in individuals from Papua, Indonesia, with severe or uncomplicated malaria. We cloned and expressed domains from 32 PfEMP1s, including 22 that were upregulated in severe malaria and 10 that were upregulated in uncomplicated malaria, using a wheat germ cell-free expression system. We used Luminex technology to measure IgG antibodies to these 32 domains and control proteins in 63 individuals (11 children). At presentation to hospital, levels of antibodies to PfEMP1 domains were either higher in uncomplicated malaria or were not significantly different between groups. Using principal component analysis, antibodies to 3 of 32 domains were highly discriminatory between groups. These included two domains upregulated in severe malaria, a DBLβ13 domain and a CIDRα1.6 domain (which has been previously implicated in severe malaria pathogenesis), and a DBLδ domain that was upregulated in uncomplicated malaria. Antibody to control non-PfEMP1 antigens did not differ with disease severity. Antibodies to PfEMP1 domains differ with malaria severity. Lack of antibodies to locally expressed PfEMP1 types, including both domains previously associated with severe malaria and newly identified targets, may in part explain malaria severity in Papuan adults.

Published

2022

47. RNAseq of Infected Erythrocyte Surface Antigen-Encoding Genes.

Author

Nguyen HHT, Azizan S, Yeoh LM, Tang J, and Duffy MF

Subjects

Antigens, Surface, Erythrocytes parasitology, Humans, Protozoan Proteins genetics, RNA, Messenger genetics, Malaria, Falciparum parasitology, Plasmodium falciparum genetics

Abstract

Massive parallel sequencing technology has greatly increased the breadth and depth of transcriptomic data that can be captured from P. falciparum samples. This has revolutionized in vitro studies but uptake has been slower in the analysis of clinical samples. The principal barriers are the removal of contaminating white blood cells in a malaria endemic setting and preservation of the RNA. We provide here detailed methods for the collection of purified infected erythrocytes and the preservation and extraction of RNA. We also provide methods for assessing and addressing contaminating RNA from erythroid cells, and a protocol for RNAseq library preparation optimized to maximize yield from low amounts of parasite mRNA. Finally, we provide some examples of RNAseq library characteristics that may fail quality control for other species but are in fact satisfactory for P. falciparum RNAseq., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

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

Author

Webster R, Sekuloski S, Odedra A, Woolley S, Jennings H, Amante F, Trenholme KR, Healer J, Cowman AF, Eriksson EM, Sathe P, Penington J, Blanch AJ, Dixon MWA, Tilley L, Duffy MF, Craig A, Storm J, Chan JA, Evans K, Papenfuss AT, Schofield L, Griffin P, Barber BE, Andrew D, Boyle MJ, de Labastida Rivera F, Engwerda C, and McCarthy JS

Subjects

Artemether therapeutic use, Artemether, Lumefantrine Drug Combination therapeutic use, Australia, Humans, Male, Plasmodium falciparum genetics, Protozoan Proteins genetics, Vaccine Development, Vaccines, Attenuated adverse effects, Antimalarials therapeutic use, Malaria drug therapy, Malaria Vaccines adverse effects, Malaria, Falciparum drug therapy, Malaria, Falciparum prevention & control

Abstract

Background: There is a clear need for novel approaches to malaria vaccine development. We aimed to develop a genetically attenuated blood-stage vaccine and test its safety, infectivity, and immunogenicity in healthy volunteers. Our approach was to target the gene encoding the knob-associated histidine-rich protein (KAHRP), which is responsible for the assembly of knob structures at the infected erythrocyte surface. Knobs are required for correct display of the polymorphic adhesion ligand P. falciparum erythrocyte membrane protein 1 (PfEMP1), a key virulence determinant encoded by a repertoire of var genes., Methods: The gene encoding KAHRP was deleted from P. falciparum 3D7 and a master cell bank was produced in accordance with Good Manufacturing Practice. Eight malaria naïve males were intravenously inoculated (day 0) with 1800 (2 subjects), 1.8 × 10 5 (2 subjects), or 3 × 10 6 viable parasites (4 subjects). Parasitemia was measured using qPCR; immunogenicity was determined using standard assays. Parasites were rescued into culture for in vitro analyses (genome sequencing, cytoadhesion assays, scanning electron microscopy, var gene expression)., Results: None of the subjects who were administered with 1800 or 1.8 × 10 5 parasites developed parasitemia; 3/4 subjects administered 3× 10 6 parasites developed significant parasitemia, first detected on days 13, 18, and 22. One of these three subjects developed symptoms of malaria simultaneously with influenza B (day 17; 14,022 parasites/mL); one subject developed mild symptoms on day 28 (19,956 parasites/mL); and one subject remained asymptomatic up to day 35 (5046 parasites/mL). Parasitemia rapidly cleared with artemether/lumefantrine. Parasitemia induced a parasite-specific antibody and cell-mediated immune response. Parasites cultured ex vivo exhibited genotypic and phenotypic properties similar to inoculated parasites, although the var gene expression profile changed during growth in vivo., Conclusions: This study represents the first clinical investigation of a genetically attenuated blood-stage human malaria vaccine. A P. falciparum 3D7 kahrp- strain was tested in vivo and found to be immunogenic but can lead to patent parasitemia at high doses., Trial Registration: Australian New Zealand Clinical Trials Registry (number: ACTRN12617000824369 ; date: 06 June 2017)., (© 2021. The Author(s).)

Published

2021

49. Preformed fibrils generated from mouse alpha-synuclein produce more inclusion pathology in rats than fibrils generated from rat alpha-synuclein.

Author

Howe JW, Sortwell CE, Duffy MF, Kemp CJ, Russell CP, Kubik M, Patel P, Luk KC, El-Agnaf OMA, and Patterson JR

Subjects

Animals, Cerebral Cortex metabolism, Cerebral Cortex pathology, Disease Models, Animal, Mice, Parkinson Disease metabolism, Parkinson Disease pathology, Rats, Recombinant Proteins, Substantia Nigra metabolism, Substantia Nigra pathology, Synucleinopathies metabolism, Synucleinopathies pathology, alpha-Synuclein

Abstract

Background: Alpha-synuclein (α-syn) preformed fibril (PFF)-induced pathology can be used to study the features and progression of synucleinopathies, such as Parkinson's disease. Intrastriatal injection of mouse α-syn PFFs produce accumulation of α-syn pathology in both mice and rats. Previous studies in mice have revealed that greater sequence homology between the α-syn amino acid sequence used to produce PFFs with that of the endogenous host α-syn increases α-syn pathology in vivo., New Methods: Based on the prediction that greater sequence homology will result in more α-syn pathology, PFFs generated from recombinant rat α-syn (rPFFs) were used instead of PFFs produced from recombinant mouse α-syn (mPFFs), which are normally used in the model. Rats received unilateral intrastriatal injections of either rPFFs or mPFFs and accumulation of α-syn phosphorylated at serine 129 (pSyn) was examined at 1-month post-surgery., Results: Rats injected with mPFFs exhibited abundant accumulation of α-syn inclusions in the substantia nigra and cortical regions, whereas in rats injected with rPFFs had significantly fewer SNpc neurons containing pSyn inclusions (≈60% fewer) and little, if any, pSyn inclusions were observed in the cortex., Conclusions: Our results suggest that additional factors beyond the degree of sequence homology between host α-syn and injected recombinant α-syn impact efficiency of seeding and subsequent inclusion formation. More practically, these findings caution against the use of rPFFs in the rat preformed fibril model., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

50. Common virulence gene expression in adult first-time infected malaria patients and severe cases.

Author

Wichers JS, Tonkin-Hill G, Thye T, Krumkamp R, Kreuels B, Strauss J, von Thien H, Scholz JA, Smedegaard Hansson H, Weisel Jensen R, Turner L, Lorenz FR, Schöllhorn A, Bruchhaus I, Tannich E, Fendel R, Otto TD, Lavstsen T, Gilberger TW, Duffy MF, and Bachmann A

Subjects

Adult, CD36 Antigens genetics, CD36 Antigens metabolism, Cohort Studies, Endothelial Protein C Receptor genetics, Endothelial Protein C Receptor metabolism, Female, Humans, Malaria, Falciparum metabolism, Malaria, Falciparum pathology, Male, Plasmodium falciparum genetics, Protein Binding, Protozoan Proteins genetics, Protozoan Proteins metabolism, Young Adult, Malaria, Falciparum genetics, Plasmodium falciparum physiology

Abstract

Sequestration of Plasmodium falciparum ( P. falciparum )-infected erythrocytes to host endothelium through the parasite-derived P. falciparum erythrocyte membrane protein 1 ( Pf EMP1) adhesion proteins is central to the development of malaria pathogenesis. Pf EMP1 proteins have diversified and expanded to encompass many sequence variants, conferring each parasite a similar array of human endothelial receptor-binding phenotypes. Here, we analyzed RNA-seq profiles of parasites isolated from 32 P. falciparum- infected adult travellers returning to Germany. Patients were categorized into either malaria naive (n = 15) or pre-exposed (n = 17), and into severe (n = 8) or non-severe (n = 24) cases. For differential expression analysis, Pf EMP1-encoding var gene transcripts were de novo assembled from RNA-seq data and, in parallel, var- expressed sequence tags were analyzed and used to predict the encoded domain composition of the transcripts. Both approaches showed in concordance that severe malaria was associated with Pf EMP1 containing the endothelial protein C receptor (EPCR)-binding CIDRα1 domain, whereas CD36-binding Pf EMP1 was linked to non-severe malaria outcomes. First-time infected adults were more likely to develop severe symptoms and tended to be infected for a longer period. Thus, parasites with more pathogenic Pf EMP1 variants are more common in patients with a naive immune status, and/or adverse inflammatory host responses to first infections favor the growth of EPCR-binding parasites., Competing Interests: JW, GT, TT, RK, BK, JS, Hv, JS, HS, RW, LT, FL, AS, IB, ET, RF, TO, TL, TG, MD, AB No competing interests declared, (© 2021, Wichers et al.)

Published

2021