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5. NHERI Centrifuge Facility: Large-Scale Centrifuge Modeling in Geotechnical Research

Author

Boulanger, RW, Wilson, DW, Kutter, BL, DeJong, JT, and Bronner, CE

Abstract

The 9-m and 1-m radius geotechnical centrifuges at the Natural Hazards Engineering Research Infrastructure (NHERI) facility at the University of California at Davis provide the national research community with open access to unique and versatile modeling capabilities for advancing methods to predict and improve the performance of soil and soil-structure systems affected by earthquake, wave, wind, and storm surge loadings. Large-scale centrifuge models are particularly effective for the building of basic science knowledge, the validation of advanced computational models from the component to the holistic system level, and the validation of innovative soil remediation strategies. The capabilities and unique role of large-scale centrifuge modeling are illustrated using three example research projects from the shared-use NHERI facility. Education impacts stemming from operations activities and coordination of activities by the center’s user base are discussed. Future directions and opportunities for research using the NHERI facilities are discussed.

Published
2020

6. Centrifuge Model Testing of Liquefaction Mitigation via Microbially Induced Calcite Precipitation

Author

Darby, KM, Hernandez, GL, Dejong, JT, Boulanger, RW, Gomez, MG, and Wilson, DW

Subjects
Civil Engineering, Environmental Engineering, Geological & Geomatics Engineering
Abstract

A set of saturated Ottawa sand models was treated with microbially induced calcite precipitation (MICP) and subjected to repeated shaking events using the 1-m radius centrifuge at the UC Davis Center for Geotechnical Modeling. Centrifuge models were constructed to initial relative densities (DR0) of approximately 38% and treated to light, moderate, and heavy levels of cementation (calcium carbonate contents by mass of approximately 0.8%, 1.4%, and 2.2%, respectively) as indicated by shear wave velocities (light≈200 m/s, moderate≈325 m/s, and heavy≈600 m/s). The cemented centrifuge models were compared to a pair of uncemented saturated Ottawa sand models with initial DR0≈38 and 53% and subjected to similar levels of shaking. Cone penetration resistances and shear wave velocities were monitored throughout shaking to investigate (1) the effect of cementation on cone penetration resistance, shear wave velocity, and cyclic resistance to liquefaction triggering; and (2) the effect of shaking on cementation degradation. Accelerometers, pore pressure transducers, and a linear potentiometer were used to monitor the effect of cementation on liquefaction triggering and consequences. Cone penetration resistances and shear wave velocities were sensitive to light, moderate, and heavy levels of cementation (increases in penetration resistance from 2 to 5 MPa, from 2 to 10 MPa, and from 2 to 18 MPa and increases in shear wave velocity from 140 to 200 m/s, from 140 to 325 m/s, and from 140 to 660 m/s, respectively), and were able to capture the effects of cementation degradation.

Published
2019

7. Stress transfer from rocking shallow foundations on soil-cement reinforced clay

Author

Khosravi, M, Boulanger, RW, Wilson, DW, Olgun, CG, Shao, L, and Tamura, S

Subjects
Soil-cement grid reinforcement, Dynamic response, Single degree of freedom system, Rocking foundation, Dynamic kinematic loads, Soil Sciences, Civil Engineering, Other Engineering, Geological & Geomatics Engineering
Abstract

Equivalent-static pushover analyses with a three-dimensional (3D), nonlinear, finite-difference model are used to investigate the static and seismic stresses imposed on soil-cement grid reinforcements in soft clay profiles by overlying structures supported by shallow footings. The goal is to evaluate the potential stress concentrations in the soil-cement grid during foundation rocking and the potential for large foundation settlements associated with the local crushing of the soil-cement. The numerical analyses are first validated using data from dynamic centrifuge experiments that included cases with and without large foundation settlements and localized crushing of the soil-cement grids. The experimental and numerical results indicate that the stresses imposed on the soil-cement grid by the overlying structures must account for foundation rocking during strong shaking and stress concentrations at the soil-cement grid intersections. The numerical analyses provide reasonable predictions of the structural rocking loads and the zone of the expected crushing or lack of crushing, but underestimate the accumulation of foundation settlements when the seismic demands repeatedly exceed the soil-cement strength. The simulated moment-rotation and uplift behavior of the footings under monotonic lateral loading are reasonably consistent with the dynamic centrifuge test results. Parametric analyses using the validated numerical model illustrate how the stress transfer varies with the area replacement ratio, the thickness of the top sand layer, the properties of the bearing sand layer, and the relative stiffness of the soil-cement and the surrounding soil. A design model for estimating the stresses imposed on a soil-cement grid by rocking foundations was developed and shown to provide a reasonable basis for assessing whether or not local damage to the soil-cement grid is expected.

Published
2019

8. p-y plasticity model for nonlinear dynamic analysis of piles in liquefiable soil

Author

Brandenberg, SJ, Zhao, M, Boulanger, RW, and Wilson, DW

Subjects
Soil liquefaction, Pile lateral loads, Plasticity, Centrifuge models, Dynamic analysis, Geological & Geomatics Engineering, Civil Engineering, Environmental Engineering
Abstract

Liquefiable soil-structure interaction material models are developed and implemented in the open-source finite-element modeling platform OpenSees. Inputs to the free end of the p-y materials include the ground motion and mean effective stress time series from a free-field soil column. Example simulations using a single p-y element attached to a soil element demonstrate key features. The models are then used to analyze centrifuge experiments of a single pile in a level liquefiable profile and a six-pile group in a sloping liquefiable profile that resulted in lateral spreading. Measured displacements and mean effective stress time series are used as inputs to isolate the response of the material models from predictive uncertainties in free-field ground motion and excess pore pressure. The predicted pile response agrees reasonably well with measurements. The cyclic mobility behavior of sand in undrained loading is shown to be an important mechanism affecting bending moments in the piles; neglecting the dilatancy component of the sand's response (i.e., ignoring the cyclic mobility behavior) can result in underprediction of the demands imposed on the piles. © 2013 American Society of Civil Engineers.

Published
2013

9. Response of rat tracheal epithelium to ozone and oxygen exposure in vitro.

Author

Nikula, KJ and Wilson, DW

Subjects
Trachea, Epithelium, Cilia, Epithelial Cells, Animals, Rats, Inbred Strains, Rats, Inflammation, Oxygen, Ozone, Organ Culture Techniques, Male, Inbred Strains, Toxicology
Abstract

Although ozone-induced epithelial injury in vivo has been morphologically characterized, effects of gaseous oxidants on respiratory epithelium in organ culture, where tissue organization is maintained but systemic influences are eliminated, have not been thoroughly investigated. In this study, we exposed tracheal organ cultures from rats to 95% oxygen and 1 ppm ozone, alone and in combination, to determine (1) whether epithelial responses to ozone similar to those observed in vivo occur in airways separated from systemic physiologic, secretory, and inflammatory reactions; (2) whether concentrations of oxygen sufficient to potentially cause oxidant injury result in morphologic epithelial alterations similar to those that occur in ozone toxicity; and (3) if the combined oxidant insult of oxygen and ozone results in more severe damage to the tracheal epithelium than occurs with ozone in air. Tracheal organ cultures were exposed to filtered air and 5% carbon dioxide; filtered air, 5% carbon dioxide, and 1 ppm ozone; 95% oxygen and 5% carbon dioxide; or 95% oxygen, 5% carbon dioxide, and 1 ppm ozone for 96 hr. Light- and quantitative electron-microscopic evaluation showed that epithelia exposed to 1 ppm ozone in air exhibited loss of ciliated cells and ciliated cell damage. The epithelia exposed to 95% oxygen and 5% carbon dioxide were pseudostratified, columnar, ciliated, and hyperplastic. Epithelia exposed to 95% oxygen plus 1 ppm ozone were stratified and nonciliated or very sparsely ciliated. The predominant cell types in epithelia exposed to oxygen plus ozone were serous cells and metaplastic cells, and focal aggregates of adherent necrotic cells were present. We conclude that there was a synergism between oxygen and ozone exposure leading to enhanced epithelial injury and metaplasia.

Published
1990

10. Effect of soil gradation on embankment response during liquefaction: A centrifuge testing program

Author

Carey, TJ, Carey, TJ, Chiaradonna, A, Love, NC, Wilson, DW, Ziotopoulou, K, Martinez, A, DeJong, JT, Carey, TJ, Carey, TJ, Chiaradonna, A, Love, NC, Wilson, DW, Ziotopoulou, K, Martinez, A, and DeJong, JT

Abstract

This paper describes a centrifuge study undertaken to investigate how sand gradation affects the system-level performance of embankments subjected to strong shaking. Current analysis and design practices are primarily based on knowledge from case history records of liquefaction, with the majority of those from sites consisting of clean, poorly graded sands. The narrow range of gradation characteristics represented in the case history database poses a challenge during the analysis of embankment structures traditionally constructed with, or founded on, more broadly graded soils. The tests herein were designed to elucidate how embankments uniformly constructed with a well graded and poorly graded sand perform differently during earthquake shaking. A centrifuge experiment test program was developed and conducted using the 9-m-radius centrifuge at the UC Davis Center for Geotechnical Modeling. The experiment design consisted of two submerged 10-degree embankments positioned side-by-side in the same rigid model container, with one embankment constructed with poorly graded sand and the other with well graded sand. The embankments were dry pluviated to the same relative density, but the absolute densities of the sands were different. The embankments were identically instrumented with dense arrays of in-situ sensors beneath the level ground above the slope and in the mid-slope to measure the dynamic response during liquefaction. Results showed that embankments constructed at equal relative densities would both liquefy (i.e., ru reach 1.0), but deformations were less severe for the embankments constructed with the well graded sand. Greater resistance to the generation and faster dissipation of excess porewater pressures, coupled with stronger dilatancy of the well graded sand increased embankment stability, curtailing liquefaction-induced deformations.

Published
2022

11. Cell biological analysis reveals an essential role for Pfcerli2 in erythrocyte invasion by malaria parasites

Author

Liffner, B, Balbin, JM, Shami, GJ, Siddiqui, G, Strauss, J, Frolich, S, Heinemann, GK, Edwards, EM, Alder, A, Wichers, JS, Creek, DJ, Tilley, L, Dixon, MWA, Gilberger, T-W, Wilson, DW, Liffner, B, Balbin, JM, Shami, GJ, Siddiqui, G, Strauss, J, Frolich, S, Heinemann, GK, Edwards, EM, Alder, A, Wichers, JS, Creek, DJ, Tilley, L, Dixon, MWA, Gilberger, T-W, and Wilson, DW

Abstract

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

Published
2022

14. Targeting malaria parasites with novel derivatives of azithromycin

Author

Burns, AL, Sleebs, BE, Gancheva, M, McLean, KT, Siddiqui, G, Venter, H, Beeson, JG, O'Handley, R, Creek, DJ, Ma, S, Froelich, S, Goodman, CD, McFadden, G, Wilson, DW, Burns, AL, Sleebs, BE, Gancheva, M, McLean, KT, Siddiqui, G, Venter, H, Beeson, JG, O'Handley, R, Creek, DJ, Ma, S, Froelich, S, Goodman, CD, McFadden, G, and Wilson, DW

Abstract

INTRODUCTION: The spread of artemisinin resistant Plasmodium falciparum parasites is of global concern and highlights the need to identify new antimalarials for future treatments. Azithromycin, a macrolide antibiotic used clinically against malaria, kills parasites via two mechanisms: 'delayed death' by inhibiting the bacterium-like ribosomes of the apicoplast, and 'quick-killing' that kills rapidly across the entire blood stage development. METHODS: Here, 22 azithromycin analogues were explored for delayed death and quick-killing activities against P. falciparum (the most virulent human malaria) and P. knowlesi (a monkey parasite that frequently infects humans). RESULTS: Seventeen analogues showed improved quick-killing against both Plasmodium species, with up to 38 to 20-fold higher potency over azithromycin after less than 48 or 28 hours of treatment for P. falciparum and P. knowlesi, respectively. Quick-killing analogues maintained activity throughout the blood stage lifecycle, including ring stages of P. falciparum parasites (<12 hrs treatment) and were >5-fold more selective against P. falciparum than human cells. Isopentenyl pyrophosphate supplemented parasites that lacked an apicoplast were equally sensitive to quick-killing analogues, confirming that the quick killing activity of these drugs was not directed at the apicoplast. Further, activity against the related apicoplast containing parasite Toxoplasma gondii and the gram-positive bacterium Streptococcus pneumoniae did not show improvement over azithromycin, highlighting the specific improvement in antimalarial quick-killing activity. Metabolomic profiling of parasites subjected to the most potent compound showed a build-up of non-haemoglobin derived peptides that was similar to chloroquine, while also exhibiting accumulation of haemoglobin-derived peptides that was absent for chloroquine treatment. DISCUSSION: The azithromycin analogues characterised in this study expand the structural diversity over pr

Published
2022

15. Automated detection and staging of malaria parasites from cytological smears using convolutional neural networks.

Author

Davidson, MS, Andradi-Brown, C, Yahiya, S, Chmielewski, J, O'Donnell, AJ, Gurung, P, Jeninga, MD, Prommana, P, Andrew, DW, Petter, M, Uthaipibull, C, Boyle, MJ, Ashdown, GW, Dvorin, JD, Reece, SE, Wilson, DW, Cunningham, KA, Ando, DM, Dimon, M, Baum, J, Davidson, MS, Andradi-Brown, C, Yahiya, S, Chmielewski, J, O'Donnell, AJ, Gurung, P, Jeninga, MD, Prommana, P, Andrew, DW, Petter, M, Uthaipibull, C, Boyle, MJ, Ashdown, GW, Dvorin, JD, Reece, SE, Wilson, DW, Cunningham, KA, Ando, DM, Dimon, M, and Baum, J

Abstract

Microscopic examination of blood smears remains the gold standard for laboratory inspection and diagnosis of malaria. Smear inspection is, however, time-consuming and dependent on trained microscopists with results varying in accuracy. We sought to develop an automated image analysis method to improve accuracy and standardization of smear inspection that retains capacity for expert confirmation and image archiving. Here, we present a machine learning method that achieves red blood cell (RBC) detection, differentiation between infected/uninfected cells, and parasite life stage categorization from unprocessed, heterogeneous smear images. Based on a pretrained Faster Region-Based Convolutional Neural Networks (R-CNN) model for RBC detection, our model performs accurately, with an average precision of 0.99 at an intersection-over-union threshold of 0.5. Application of a residual neural network-50 model to infected cells also performs accurately, with an area under the receiver operating characteristic curve of 0.98. Finally, combining our method with a regression model successfully recapitulates intraerythrocytic developmental cycle with accurate lifecycle stage categorization. Combined with a mobile-friendly web-based interface, called PlasmoCount, our method permits rapid navigation through and review of results for quality assurance. By standardizing assessment of Giemsa smears, our method markedly improves inspection reproducibility and presents a realistic route to both routine lab and future field-based automated malaria diagnosis.

Published
2021

19. Retargeting azithromycin analogues to have dual-modality antimalarial activity

Author

Burns, AL, Sleebs, BE, Siddiqui, G, De Paoli, AE, Anderson, D, Liffner, B, Harvey, R, Beeson, JG, Creek, DJ, Goodman, CD, McFadden, GI, Wilson, DW, Burns, AL, Sleebs, BE, Siddiqui, G, De Paoli, AE, Anderson, D, Liffner, B, Harvey, R, Beeson, JG, Creek, DJ, Goodman, CD, McFadden, GI, and Wilson, DW

Abstract

Background Resistance to front-line antimalarials (artemisinin combination therapies) is spreading, and development of new drug treatment strategies to rapidly kill Plasmodium spp. malaria parasites is urgently needed. Azithromycin is a clinically used macrolide antibiotic proposed as a partner drug for combination therapy in malaria, which has also been tested as monotherapy. However, its slow-killing ‘delayed-death’ activity against the parasite’s apicoplast organelle and suboptimal activity as monotherapy limit its application as a potential malaria treatment. Here, we explore a panel of azithromycin analogues and demonstrate that chemical modifications can be used to greatly improve the speed and potency of antimalarial action. Results Investigation of 84 azithromycin analogues revealed nanomolar quick-killing potency directed against the very earliest stage of parasite development within red blood cells. Indeed, the best analogue exhibited 1600-fold higher potency than azithromycin with less than 48 hrs treatment in vitro. Analogues were effective against zoonotic Plasmodium knowlesi malaria parasites and against both multi-drug and artemisinin-resistant Plasmodium falciparum lines. Metabolomic profiles of azithromycin analogue-treated parasites suggested activity in the parasite food vacuole and mitochondria were disrupted. Moreover, unlike the food vacuole-targeting drug chloroquine, azithromycin and analogues were active across blood-stage development, including merozoite invasion, suggesting that these macrolides have a multi-factorial mechanism of quick-killing activity. The positioning of functional groups added to azithromycin and its quick-killing analogues altered their activity against bacterial-like ribosomes but had minimal change on ‘quick-killing’ activity. Apicoplast minus parasites remained susceptible to both azithromycin and its analogues, further demonstrating that quick-killing is independent of apicoplast-targeting, delayed-death activity.

Published
2020

20. PfCERLI1 is a conserved rhoptry associated protein essential for Plasmodium falciparum merozoite invasion of erythrocytes

Author

Liffner, B, Frolich, S, Heinemann, GK, Liu, B, Ralph, SA, Dixon, MWA, Gilberger, T-W, Wilson, DW, Liffner, B, Frolich, S, Heinemann, GK, Liu, B, Ralph, SA, Dixon, MWA, Gilberger, T-W, and Wilson, DW

Abstract

The disease-causing blood-stage of the Plasmodium falciparum lifecycle begins with invasion of human erythrocytes by merozoites. Many vaccine candidates with key roles in binding to the erythrocyte surface and entry are secreted from the large bulb-like rhoptry organelles at the apical tip of the merozoite. Here we identify an essential role for the conserved protein P. falciparum Cytosolically Exposed Rhoptry Leaflet Interacting protein 1 (PfCERLI1) in rhoptry function. We show that PfCERLI1 localises to the cytosolic face of the rhoptry bulb membrane and knockdown of PfCERLI1 inhibits merozoite invasion. While schizogony and merozoite organelle biogenesis appear normal, biochemical techniques and semi-quantitative super-resolution microscopy show that PfCERLI1 knockdown prevents secretion of key rhoptry antigens that coordinate merozoite invasion. PfCERLI1 is a rhoptry associated protein identified to have a direct role in function of this essential merozoite invasion organelle, which has broader implications for understanding apicomplexan invasion biology.

Published
2020

21. Development and application of a high-throughput screening assay for identification of small molecule inhibitors of the P. falciparum reticulocyte binding-like homologue 5 protein

Author

Sleebs, BE, Jarman, KE, Frolich, S, Wong, W, Healer, J, Dai, W, Lucet, IS, Wilson, DW, Cowman, AF, Sleebs, BE, Jarman, KE, Frolich, S, Wong, W, Healer, J, Dai, W, Lucet, IS, Wilson, DW, and Cowman, AF

Abstract

The P. falciparum parasite, responsible for the disease in humans known as malaria, must invade erythrocytes to provide an environment for self-replication and survival. For invasion to occur, the parasite must engage several ligands on the host erythrocyte surface to enable adhesion, tight junction formation and entry. Critical interactions include binding of erythrocyte binding-like ligands and reticulocyte binding-like homologues (Rhs) to the surface of the host erythrocyte. The reticulocyte binding-like homologue 5 (Rh5) is the only member of this family that is essential for invasion and it binds to the basigin host receptor. The essential nature of Rh5 makes it an important vaccine target, however to date, Rh5 has not been targeted by small molecule intervention. Here, we describe the development of a high-throughput screening assay to identify small molecules which interfere with the Rh5-basigin interaction. To validate the utility of this assay we screened a known drug library and the Medicines for Malaria Box and demonstrated the reproducibility and robustness of the assay for high-throughput screening purposes. The screen of the known drug library identified the known leukotriene antagonist, pranlukast. We used pranlukast as a model inhibitor in a post screening evaluation cascade. We procured and synthesised analogues of pranlukast to assist in the hit confirmation process and show which structural moieties of pranlukast attenuate the Rh5 - basigin interaction. Evaluation of pranlukast analogues against P. falciparum in a viability assay and a schizont rupture assay show the parasite activity was not consistent with the biochemical inhibition of Rh5, questioning the developability of pranlukast as an antimalarial. The high-throughput assay developed from this work has the capacity to screen large collections of small molecules to discover inhibitors of P. falciparum Rh5 for future development of invasion inhibitory antimalarials.

Published
2020

22. In vitro evidence of cellular adaptation to ozone toxicity in the rat trachea.

Author

Nikula, KJ, Wilson, DW, Dungworth, DL, and Plopper, CG

Subjects
Trachea, Epithelium, Animals, Rats, Inbred Strains, Rats, Ozone, Glutathione, Adaptation, Physiological, Male, In Vitro Techniques, Adaptation, Physiological, Inbred Strains, Pharmacology and Pharmaceutical Sciences, Toxicology
Abstract

Adaptation to prolonged ozone (O3) exposure occurs in the tracheal epithelium of rats and is marked by the presence of ciliated cells with uniform short cilia but is not accompanied by shifts in cell populations, altered characteristics of epithelial secretory cell products, increased cell turnover, or elevated tracheal superoxide dismutase activity. The purpose of this study was to test the hypothesis that adaptation is a result of alterations intrinsic to epithelial cells or to the cells and their matrix, and not due to systemic or neural influences. Rats were preexposed to either filtered air (FA) or 0.96 ppm O3 for 8 hr/night for 60 days, and then their tracheae were removed and exposed to 3 ppm O3 in an explant culture system where behavioral, nasal, exudative, and secretory product influences can be eliminated. After exposure to 3 ppm O3 in vitro, quantitative electron microscopic evaluation demonstrated that the epithelia from the FA preexposure group had significantly more necrotic cells and sloughed cells and fewer ciliated cells than the epithelia from the O3 preexposure group. Thus previous exposure to ozone in vivo induces a change in tracheal epithelium which confers resistance to ozone-induced injury in the explant exposure system.

Published
1988

23. Targeting malaria parasite invasion of red blood cells as an antimalarial strategy

Author

Burns, AL, Dans, MG, Balbin, JM, de Koning-Ward, TF, Gilson, PR, Beeson, JG, Boyle, MJ, Wilson, DW, Burns, AL, Dans, MG, Balbin, JM, de Koning-Ward, TF, Gilson, PR, Beeson, JG, Boyle, MJ, and Wilson, DW

Abstract

Plasmodium spp. parasites that cause malaria disease remain a significant global-health burden. With the spread of parasites resistant to artemisinin combination therapies in Southeast Asia, there is a growing need to develop new antimalarials with novel targets. Invasion of the red blood cell by Plasmodium merozoites is essential for parasite survival and proliferation, thus representing an attractive target for therapeutic development. Red blood cell invasion requires a co-ordinated series of protein/protein interactions, protease cleavage events, intracellular signals, organelle release and engagement of an actin-myosin motor, which provide many potential targets for drug development. As these steps occur in the bloodstream, they are directly susceptible and exposed to drugs. A number of invasion inhibitors against a diverse range of parasite proteins involved in these different processes of invasion have been identified, with several showing potential to be optimised for improved drug-like properties. In this review, we discuss red blood cell invasion as a drug target and highlight a number of approaches for developing antimalarials with invasion inhibitory activity to use in future combination therapies.

Published
2019

24. Targets of complement-fixing antibodies in protective immunity against malaria in children

Author

Reiling, L, Boyle, MJ, White, MT, Wilson, DW, Feng, G, Weaver, R, Opi, DH, Persson, KEM, Richards, JS, Siba, PM, Fowkes, FJI, Takashima, E, Tsuboi, T, Mueller, I, Beeson, JG, Reiling, L, Boyle, MJ, White, MT, Wilson, DW, Feng, G, Weaver, R, Opi, DH, Persson, KEM, Richards, JS, Siba, PM, Fowkes, FJI, Takashima, E, Tsuboi, T, Mueller, I, and Beeson, JG

Abstract

Antibodies against P. falciparum merozoites fix complement to inhibit blood-stage replication in naturally-acquired and vaccine-induced immunity; however, specific targets of these functional antibodies and their importance in protective immunity are unknown. Among malaria-exposed individuals, we show that complement-fixing antibodies to merozoites are more strongly correlated with protective immunity than antibodies that inhibit growth quantified using the current reference assay for merozoite vaccine evaluation. We identify merozoite targets of complement-fixing antibodies and identify antigen-specific complement-fixing antibodies that are strongly associated with protection from malaria in a longitudinal study of children. Using statistical modelling, combining three different antigens targeted by complement-fixing antibodies could increase the potential protective effect to over 95%, and we identify antigens that were common in the most protective combinations. Our findings support antibody-complement interactions against merozoite antigens as important anti-malaria immune mechanisms, and identify specific merozoite antigens for further evaluation as vaccine candidates.

Published
2019

25. Cellular dissection of malaria parasite invasion of human erythrocytes using viable Plasmodium knowlesi merozoites

Author

Lythl, O, Vizcay-Barrena, G, Wright, KE, Haase, S, Mohring, F, Nejer, A, Henshall, IG, Ashdown, GW, Bannister, LH, Drew, DR, Beeson, JG, Fleck, RA, Moon, RW, Wilson, DW, Baum, J, Lythl, O, Vizcay-Barrena, G, Wright, KE, Haase, S, Mohring, F, Nejer, A, Henshall, IG, Ashdown, GW, Bannister, LH, Drew, DR, Beeson, JG, Fleck, RA, Moon, RW, Wilson, DW, and Baum, J

Abstract

Plasmodium knowlesi, a zoonotic parasite causing severe-to-lethal malaria disease in humans, has only recently been adapted to continuous culture with human red blood cells (RBCs). In comparison with the most virulent human malaria, Plasmodium falciparum, there are, however, few cellular tools available to study its biology, in particular direct investigation of RBC invasion by blood-stage P. knowlesi merozoites. This leaves our current understanding of biological differences across pathogenic Plasmodium spp. incomplete. Here, we report a robust method for isolating viable and invasive P. knowlesi merozoites to high purity and yield. Using this approach, we present detailed comparative dissection of merozoite invasion (using a variety of microscopy platforms) and direct assessment of kinetic differences between knowlesi and falciparum merozoites. We go on to assess the inhibitory potential of molecules targeting discrete steps of invasion in either species via a quantitative invasion inhibition assay, identifying a class of polysulfonate polymer able to efficiently inhibit invasion in both, providing a foundation for pan-Plasmodium merozoite inhibitor development. Given the close evolutionary relationship between P. knowlesi and P. vivax, the second leading cause of malaria-related morbidity, this study paves the way for inter-specific dissection of invasion by all three major pathogenic malaria species.

Published
2018

27. Culturally competent psychiatric nursing care

Author

Wilson Dw

Subjects
medicine.medical_specialty, business.industry, Nursing research, Nursing care, Team nursing, Nursing, Transcultural nursing, medicine, Nursing Interventions Classification, Nurse education, Pshychiatric Mental Health, Culturally Competent Care, Psychiatry, business, Primary nursing
Abstract

Evidence-based descriptions of culturally competent psychiatric nursing care are scarce. This study explored the perceptions of clients with mental illness regarding the overall effectiveness of psychiatric nursing care in meeting their cultural needs, and psychiatric nurses' perceptions of how and to what extent they provided culturally competent psychiatric mental health nursing care to diverse client populations. This descriptive study employed a qualitative research design using a multi-method data collection approach consisting of in-depth individual client interviews and a self-administered nurse questionnaire. Client participants tended to minimize the importance of receiving care related to their cultural needs. They described (1) encouraging and reassuring me; (2) speaking up for me; and (3) praying a lot as essential to their care. Nurse participants perceived their psychiatric nursing care to be culturally competent; however, few described specific strategies for incorporating cultural beliefs and practices into nursing care. Client participant lacked awareness of their cultural needs and had difficulty identifying and describing specific nursing interventions that contributed to positive mental health outcomes. Nurses perceived that they provided culturally competent care but actually lacked specific knowledge and skills to do so effectively.

Published
2010

30. A novel approach to identifying patterns of human invasion-inhibitory antibodies guides the design of malaria vaccines incorporating polymorphic antigens

Author

Drew, DR, Wilson, DW, Elliott, SR, Cross, N, Terheggen, U, Hodder, AN, Siba, PM, Chelimo, K, Dent, AE, Kazura, JW, Mueller, I, Beeson, JG, Drew, DR, Wilson, DW, Elliott, SR, Cross, N, Terheggen, U, Hodder, AN, Siba, PM, Chelimo, K, Dent, AE, Kazura, JW, Mueller, I, and Beeson, JG

Abstract

BACKGROUND: The polymorphic nature of many malaria vaccine candidates presents major challenges to achieving highly efficacious vaccines. Presently, there is very little knowledge on the prevalence and patterns of functional immune responses to polymorphic vaccine candidates in populations to guide vaccine design. A leading polymorphic vaccine candidate against blood-stage Plasmodium falciparum is apical membrane antigen 1 (AMA1), which is essential for erythrocyte invasion. The importance of AMA1 as a target of acquired human inhibitory antibodies, their allele specificity and prevalence in populations is unknown, but crucial for vaccine design. METHODS: P. falciparum lines expressing different AMA1 alleles were genetically engineered and used to quantify functional antibodies from two malaria-exposed populations of adults and children. The acquisition of AMA1 antibodies was also detected using enzyme-linked immunosorbent assay (ELISA) and competition ELISA (using different AMA1 alleles) from the same populations. RESULTS: We found that AMA1 was a major target of naturally acquired invasion-inhibitory antibodies that were highly prevalent in malaria-endemic populations and showed a high degree of allele specificity. Significantly, the prevalence of inhibitory antibodies to different alleles varied substantially within populations and between geographic locations. Inhibitory antibodies to three specific alleles were highly prevalent (FVO and W2mef in Papua New Guinea; FVO and XIE in Kenya), identifying them for potential vaccine inclusion. Measurement of antibodies by standard or competition ELISA was not strongly predictive of allele-specific inhibitory antibodies. The patterns of allele-specific functional antibody responses detected with our novel assays may indicate that acquired immunity is elicited towards serotypes that are prevalent in each geographic location. CONCLUSIONS: These findings provide new insights into the nature and acquisition of functional imm

Published
2016

32. Macrolides rapidly inhibit red blood cell invasion by the human malaria parasite, Plasmodium falciparum

Author

Wilson, DW, Goodman, CD, Sleebs, BE, Weiss, GE, de Jong, NWM, Angrisano, F, Langer, C, Baum, J, Crabb, BS, Gilson, PR, McFadden, GI, Beeson, JG, Wilson, DW, Goodman, CD, Sleebs, BE, Weiss, GE, de Jong, NWM, Angrisano, F, Langer, C, Baum, J, Crabb, BS, Gilson, PR, McFadden, GI, and Beeson, JG

Abstract

BACKGROUND: Malaria invasion of red blood cells involves multiple parasite-specific targets that are easily accessible to inhibitory compounds, making it an attractive target for antimalarial development. However, no current antimalarial agents act against host cell invasion. RESULTS: Here, we demonstrate that the clinically used macrolide antibiotic azithromycin, which is known to kill human malaria asexual blood-stage parasites by blocking protein synthesis in their apicoplast, is also a rapid inhibitor of red blood cell invasion in human (Plasmodium falciparum) and rodent (P. berghei) malarias. Multiple lines of evidence demonstrate that the action of azithromycin in inhibiting parasite invasion of red blood cells is independent of its inhibition of protein synthesis in the parasite apicoplast, opening up a new strategy to develop a single drug with multiple parasite targets. We identified derivatives of azithromycin and erythromycin that are better invasion inhibitors than parent compounds, offering promise for development of this novel antimalarial strategy. CONCLUSIONS: Safe and effective macrolide antibiotics with dual modalities could be developed to combat malaria and reduce the parasite's options for resistance.

Published
2015

33. Quarantine of aquatic animals in Australia

Author

Wilson Dw, Doyle Ka, and Beers Pt

Subjects
Isolation (health care), Aquatic animal, General Medicine, Biology, law.invention, Fishery, Aquatic species, law, Environmental protection, Disease Notification, Quarantine, %22">Fish , Animal Science and Zoology, Objective risk
Abstract

Australia is free from many significant diseases of aquatic animals. Quarantine policies for aquatic animals and aquatic animal products are designed to meet the international trade obligations of Australia, while preventing the entry of pests and diseases. These policies are supported by measures to prevent the introduction of aquatic species which would have deleterious effects on the environment. The Australian approach to quarantine--utilising objective risk analysis, where possible--is more difficult to apply to aquatic species than to terrestrial animals, as it is hard to identify and quantify risks when much of the relevant disease and epidemiological information is unavailable. Other than ornamental fish, for which stringent quarantine restrictions apply, involving isolation in quarantine premises, there have been no commercial importations of live aquatic species into Australia over the past decade. The onerous requirements for detailed analysis of disease risks and environmental implications have tended to deter potential importers. For many years, specific controls--based on risk analysis--have also been placed on the importation of products such as oysters in the shell, salmonid products, and feeds and meals of aquatic animal origin. A major review of quarantine requirements has been commissioned.

Published
1996

34. Quarantine requirements for the importation of black rhinoceros from Zimbabwe into Australia

Author

Doyle Ka, Robinson Ba, and Wilson Dw

Subjects
Zimbabwe, Wild species, Rift Valley Fever, Fauna, Sheep Diseases, Animals, Wild, Transportation, Rhinoceros, Bluetongue, law.invention, law, Environmental protection, African Horse Sickness, Quarantine, Disease Transmission, Infectious, Animals, Tuberculosis, Horses, Domestication, Perissodactyla, Black rhinoceros, Herbivore, Sheep, General Veterinary, biology, business.industry, Agroforestry, Australia, General Medicine, biology.organism_classification, Theileriasis, Trypanosomiasis, African, Geography, Animals, Domestic, Foot-and-Mouth Disease, Horse Diseases, Livestock, New South Wales, Heartwater Disease, business
Abstract

SUMMARY The proposal by the Zoological Parks Board of New South Wales to import 10 southern black rhinoceros (Diceros bicornis) from Zimbabwe as part of an international project for conservation of the species presented the Australian Quarantine and Inspection Service (AQIS) with a unique challenge. This importation is, at least in the modern era, the first importation of live herbivores from the African continent. Many of the serious animal diseases in the world are endemic in parts of Africa. Knowledge of which of these diseases infect wild species and may be transmitted from the wild species to domesticated species, is limited. This paper describes the strategies adopted by AQIS to facilitate the importation of rhinoceros while maintaining protection of Australian consumers, rural industries, domestic livestock and fauna against the entry and spread of unwanted pests and diseases.

Published
1995

35. Import risk assessment for salmon meat

Author

Beers Pt and Wilson Dw

Subjects
Public economics, media_common.quotation_subject, Public policy, Public consultation, General Medicine, Transparency (behavior), law.invention, Fishery, law, Service (economics), Quarantine, Accountability, %22">Fish , Animal Science and Zoology, Business, Risk assessment, media_common
Abstract

The authors discuss the risk assessment currently being conducted by the Australian Quarantine and Inspection Service (AQIS) on the importation of salmon products. AQIS conducted a public consultation on the proposal, in line with Australian Government policy on transparency and accountability in the quarantine decision-making process. The authors examine the factors which should be taken into account in the assessment of the risk associated with the importation of such products, and note the difficulties encountered with the epidemiology of fish diseases.

Published
1993

36. Risk assessment on the importation of milk and milk products (excluding cheese) from countries not free from foot and mouth disease

Author

Wilson Dw and Heng Nh

Subjects
Hot Temperature, Cattle Diseases, Fmd virus, Treatment parameters, Disease Outbreaks, law.invention, Aphthovirus, Milk products, Risk Factors, law, Environmental health, Quarantine, medicine, Animals, Foot-and-mouth disease, business.industry, Vaccination, Australia, food and beverages, Public consultation, General Medicine, Hydrogen-Ion Concentration, medicine.disease, Biotechnology, Milk, Foot-and-Mouth Disease, Carrier State, Cattle, Animal Science and Zoology, Dairy Products, Risk assessment, business
Abstract

The authors discuss the risk assessment conducted by the Australian Quarantine and Inspection Service (AQIS) on the importation of milk and milk products (excluding cheese) from countries not free from foot and mouth disease (FMD). This assessment was undertaken in response to requests from countries wishing to export dairy products for sale on the Australian market. AQIS conducted a public consultation on the proposal, in line with Australian Government policy on transparency and accountability in the quarantine decision-making process. The authors examine the procedures involved in the investigation of the likely presence of FMD virus in milk of vaccinated and non-vaccinated cows, and of the heat treatment parameters effective in the inactivation of the virus. The data provide a useful aid in the assessment of the risk factors associated with the importation of milk and milk products, and in the development of quarantine conditions for importation.

Published
1993

37. Conditional expression of apical membrane antigen 1 in Plasmodium falciparum shows it is required for erythrocyte invasion by merozoites

Author

Yap, A, Azevedo, MF, Gilson, PR, Weiss, GE, O'Neill, MT, Wilson, DW, Crabb, BS, Cowman, AF, Yap, A, Azevedo, MF, Gilson, PR, Weiss, GE, O'Neill, MT, Wilson, DW, Crabb, BS, and Cowman, AF

Abstract

Malaria is caused by obligate intracellular parasites, of which Plasmodium falciparum is the most lethal species. In humans, P. falciparum merozoites (invasive forms of the parasite) employ a host of parasite proteins to rapidly invade erythrocytes. One of these is the P. falciparum apical membrane antigen 1 (PfAMA1) which forms a complex with rhoptry neck proteins at the tight junction. Here, we have placed the Pfama1 gene under conditional control using dimerizable Cre recombinase (DiCre) in P. falciparum. DiCre-mediated excision of the loxP-flanked Pfama1 gene results in approximately 80% decreased expression of the protein within one intraerythrocytic growth cycle. This reduces growth by 40%, due to decreased invasion efficiency characterized by a post-invasion defect in sealing of the parasitophorous vacuole. These results show that PfAMA1 is an essential protein for merozoite invasion in P. falciparum and either directly or indirectly plays a role in resealing of the red blood cell at the posterior end of the invasion event.

Published
2014

38. The effect of an anti-membrane antibody-methotrexate conjugate on the human prostatic tumour line PC3

Author

Wilson Dw, Keith Griffiths, Rowland Aj, and Maureen Elaine Harper

Subjects
Male, musculoskeletal diseases, Cancer Research, medicine.medical_specialty, Cell Survival, medicine.drug_class, Mice, Nude, Pharmacology, Monoclonal antibody, Immunoglobulin G, Cell Line, Mice, immune system diseases, Internal medicine, Tumor Cells, Cultured, medicine, Animals, Humans, heterocyclic compounds, skin and connective tissue diseases, Antiserum, Drug Carriers, biology, Cell Membrane, Prostatic Neoplasms, Methotrexate, Endocrinology, Oncology, Cell culture, Polyclonal antibodies, biology.protein, Antibody, Drug carrier, Neoplasm Transplantation, Research Article, medicine.drug
Abstract

Methotrexate (MTX) was linked, via an active ester intermediate, to a purified IgG fraction of rabbit polyclonal antiserum raised against a cell membrane preparation from the human prostatic cell line PC3. The resulting conjugates contained an average of 0.044 mg of MTX per mg of antibody with acceptable losses in both the binding activity of the immunoglobulin (27.5%) and the enzyme inhibitory activity of the drug (32% at a MTX concentration of 3 x 10(-7) M). Using cultures of PC3 cells the antibody-MTX (Ab-MTX) conjugates were observed to be as effective as free drug in causing cell death and more effective than non-immune IgG-MTX (NIgG-MTX) conjugates. When athymic nude mice bearing PC3 tumours were administered with Ab-MTX conjugates, significant reductions in tumour growth rates were observed compared to animals given saline, MTX alone or NIgG-MTX conjugates (P less than 0.01 in all cases). Furthermore, the accumulation of radioactive MTX in the tumour tissue of animals injected with these Ab-MTX conjugates was 16-fold greater than those given free drug and 8.6-fold greater than those administered with NIgG-MTX conjugates. Uptake by the reticuloendothelial system, however, was not significantly different when animals from each treatment group were compared.

Published
1990

44. Vaccination with Conserved Regions of Erythrocyte-Binding Antigens Induces Neutralizing Antibodies against Multiple Strains of Plasmodium falciparum

Author

Hviid, L, Healer, J, Thompson, JK, Riglar, DT, Wilson, DW, Chiu, Y-HC, Miura, K, Chen, L, Hodder, AN, Long, CA, Hansen, DS, Baum, J, Cowman, AF, Hviid, L, Healer, J, Thompson, JK, Riglar, DT, Wilson, DW, Chiu, Y-HC, Miura, K, Chen, L, Hodder, AN, Long, CA, Hansen, DS, Baum, J, and Cowman, AF

Abstract

BACKGROUND: A highly effective vaccine against Plasmodium falciparum malaria should induce potent, strain transcending immunity that broadly protects against the diverse population of parasites circulating globally. We aimed to identify vaccine candidates that fulfill the criteria. METHODS: We have measured growth inhibitory activity of antibodies raised to a range of antigens to identify those that can efficiently block merozoite invasion for geographically diverse strains of P. falciparum. RESULTS: This has shown that the conserved Region III-V, of the P. falciparum erythrocyte-binding antigen (EBA)-175 was able to induce antibodies that potently inhibit merozoite invasion across diverse parasite strains, including those reliant on invasion pathways independent of EBA-175 function. Additionally, the conserved RIII-V domain of EBA-140 also induced antibodies with strong in vitro parasite growth inhibitory activity. CONCLUSION: We identify an alternative, highly conserved region (RIV-V) of EBA-175, present in all EBA proteins, that is the target of potent, strain transcending neutralizing antibodies, that represents a strong candidate for development as a component in a malaria vaccine.

Published
2013

45. Defining the Antigenic Diversity of Plasmodium falciparum Apical Membrane Antigen 1 and the Requirements for a Multi-Allele Vaccine against Malaria

Author

Hviid, L, Drew, DR, Hodder, AN, Wilson, DW, Foley, M, Mueller, I, Siba, PM, Dent, AE, Cowman, AF, Beeson, JG, Hviid, L, Drew, DR, Hodder, AN, Wilson, DW, Foley, M, Mueller, I, Siba, PM, Dent, AE, Cowman, AF, and Beeson, JG

Abstract

Apical Membrane Antigen 1 (AMA1) is a leading malaria vaccine candidate and a target of naturally-acquired human immunity. Plasmodium falciparum AMA1 is polymorphic and in vaccine trials it induces strain-specific protection. This antigenic diversity is a major roadblock to development of AMA1 as a malaria vaccine and understanding how to overcome it is essential. To assess how AMA1 antigenic diversity limits cross-strain growth inhibition, we assembled a panel of 18 different P. falciparum isolates which are broadly representative of global AMA1 sequence diversity. Antibodies raised against four well studied AMA1 alleles (W2Mef, 3D7, HB3 and FVO) were tested for growth inhibition of the 18 different P. falciparum isolates in growth inhibition assays (GIA). All antibodies demonstrated substantial cross-inhibitory activity against different isolates and a mixture of the four different AMA1 antibodies inhibited all 18 isolates tested, suggesting significant antigenic overlap between AMA1 alleles and limited antigenic diversity of AMA1. Cross-strain inhibition by antibodies was only moderately and inconsistently correlated with the level of sequence diversity between AMA1 alleles, suggesting that sequence differences are not a strong predictor of antigenic differences or the cross-inhibitory activity of anti-allele antibodies. The importance of the highly polymorphic C1-L region for inhibitory antibodies and potential vaccine escape was assessed by generating novel transgenic P. falciparum lines for testing in GIA. While the polymorphic C1-L epitope was identified as a significant target of some growth-inhibitory antibodies, these antibodies only constituted a minor proportion of the total inhibitory antibody repertoire, suggesting that the antigenic diversity of inhibitory epitopes is limited. Our findings support the concept that a multi-allele AMA1 vaccine would give broad coverage against the diversity of AMA1 alleles and establish new tools to define polymorphisms

Published
2012

46. Biochemical and Functional Analysis of Two Plasmodium falciparum Blood-Stage 6-Cys Proteins: P12 and P41

Author

Spielmann, T, Taechalertpaisarn, T, Crosnier, C, Bartholdson, SJ, Hodder, AN, Thompson, J, Bustamante, LY, Wilson, DW, Sanders, PR, Wright, GJ, Rayner, JC, Cowman, AF, Gilson, PR, Crabb, BS, Spielmann, T, Taechalertpaisarn, T, Crosnier, C, Bartholdson, SJ, Hodder, AN, Thompson, J, Bustamante, LY, Wilson, DW, Sanders, PR, Wright, GJ, Rayner, JC, Cowman, AF, Gilson, PR, and Crabb, BS

Abstract

The genomes of Plasmodium parasites that cause malaria in humans, other primates, birds, and rodents all encode multiple 6-cys proteins. Distinct 6-cys protein family members reside on the surface at each extracellular life cycle stage and those on the surface of liver infective and sexual stages have been shown to play important roles in hepatocyte growth and fertilization respectively. However, 6-cys proteins associated with the blood-stage forms of the parasite have no known function. Here we investigate the biochemical nature and function of two blood-stage 6-cys proteins in Plasmodium falciparum, the most pathogenic species to afflict humans. We show that native P12 and P41 form a stable heterodimer on the infective merozoite surface and are secreted following invasion, but could find no evidence that this complex mediates erythrocyte-receptor binding. That P12 and P41 do not appear to have a major role as adhesins to erythrocyte receptors was supported by the observation that antisera to these proteins did not substantially inhibit erythrocyte invasion. To investigate other functional roles for these proteins their genes were successfully disrupted in P. falciparum, however P12 and P41 knockout parasites grew at normal rates in vitro and displayed no other obvious phenotypic changes. It now appears likely that these blood-stage 6-cys proteins operate as a pair and play redundant roles either in erythrocyte invasion or in host-immune interactions.

Published
2012

47. Efficient Measurement of Opsonising Antibodies to Plasmodium falciparum Merozoites

Author

Braga, EM, Hill, DL, Eriksson, EM, Carmagnac, AB, Wilson, DW, Cowman, AF, Hansen, DS, Schofield, L, Braga, EM, Hill, DL, Eriksson, EM, Carmagnac, AB, Wilson, DW, Cowman, AF, Hansen, DS, and Schofield, L

Abstract

BACKGROUND: Antibodies targeting merozoites are important in protection from malaria. Therefore, merozoite surface proteins are attractive vaccine candidates. There is a need for robust functional assays to investigate mechanisms of acquired immunity and vaccine efficacy. To date, the study of merozoite phagocytosis has been confounded by the complexity and variability of in vitro assays. METHODOLOGY/PRINCIPAL FINDINGS: We have developed a new flow cytometry-based merozoite phagocytosis assay. An optimized merozoite preparation technique produced high yields of merozoites separated from haemozoin. Phagocytosis by the undifferentiated THP-1 monocytic cell line was mediated only by Fc Receptors, and was therefore ideal for studying opsonising antibody responses. The assay showed robust phagocytosis with highly diluted immune sera and strong inter-assay correlation. The assay effectively measured differences in opsonisation-dependent phagocytosis among individuals. CONCLUSIONS/SIGNIFICANCE: This highly reproducible assay has potential applications in assessing the role of opsonic phagocytosis in naturally acquired immunity and vaccine trials.

Published
2012

48. The Plasmodium falciparum Erythrocyte Invasion Ligand Pfrh4 as a Target of Functional and Protective Human Antibodies against Malaria

Author

Tetteh, KKA, Reiling, L, Richards, JS, Fowkes, FJI, Wilson, DW, Chokejindachai, W, Barry, AE, Tham, W-H, Stubbs, J, Langer, C, Donelson, J, Michon, P, Tavul, L, Crabb, BS, Siba, PM, Cowman, AF, Mueller, I, Beeson, JG, Tetteh, KKA, Reiling, L, Richards, JS, Fowkes, FJI, Wilson, DW, Chokejindachai, W, Barry, AE, Tham, W-H, Stubbs, J, Langer, C, Donelson, J, Michon, P, Tavul, L, Crabb, BS, Siba, PM, Cowman, AF, Mueller, I, and Beeson, JG

Abstract

BACKGROUND: Acquired antibodies are important in human immunity to malaria, but key targets remain largely unknown. Plasmodium falciparum reticulocyte-binding-homologue-4 (PfRh4) is important for invasion of human erythrocytes and may therefore be a target of protective immunity. METHODS: IgG and IgG subclass-specific responses against different regions of PfRh4 were determined in a longitudinal cohort of 206 children in Papua New Guinea (PNG). Human PfRh4 antibodies were tested for functional invasion-inhibitory activity, and expression of PfRh4 by P. falciparum isolates and sequence polymorphisms were determined. RESULTS: Antibodies to PfRh4 were acquired by children exposed to P. falciparum malaria, were predominantly comprised of IgG1 and IgG3 subclasses, and were associated with increasing age and active parasitemia. High levels of antibodies, particularly IgG3, were strongly predictive of protection against clinical malaria and high-density parasitemia. Human affinity-purified antibodies to the binding region of PfRh4 effectively inhibited erythrocyte invasion by P. falciparum merozoites and antibody levels in protected children were at functionally-active concentrations. Although expression of PfRh4 can vary, PfRh4 protein was expressed by most isolates derived from the cohort and showed limited sequence polymorphism. CONCLUSIONS: Evidence suggests that PfRh4 is a target of antibodies that contribute to protective immunity to malaria by inhibiting erythrocyte invasion and preventing high density parasitemia. These findings advance our understanding of the targets and mechanisms of human immunity and evaluating the potential of PfRh4 as a component of candidate malaria vaccines.

Published
2012

49. Quantifying the Importance of MSP1-19 as a Target of Growth-Inhibitory and Protective Antibodies against Plasmodium falciparum in Humans

Author

Snounou, G, Wilson, DW, Fowkes, FJI, Gilson, PR, Elliott, SR, Tavul, L, Michon, P, Dabod, E, Siba, PM, Mueller, I, Crabb, BS, Beeson, JG, Snounou, G, Wilson, DW, Fowkes, FJI, Gilson, PR, Elliott, SR, Tavul, L, Michon, P, Dabod, E, Siba, PM, Mueller, I, Crabb, BS, and Beeson, JG

Abstract

BACKGROUND: Antibodies targeting blood stage antigens are important in protection against malaria, but the key targets and mechanisms of immunity are not well understood. Merozoite surface protein 1 (MSP1) is an abundant and essential protein. The C-terminal 19 kDa region (MSP1-19) is regarded as a promising vaccine candidate and may also be an important target of immunity. METHODOLOGY/FINDINGS: Growth inhibitory antibodies against asexual-stage parasites and IgG to recombinant MSP1-19 were measured in plasma samples from a longitudinal cohort of 206 children in Papua New Guinea. Differential inhibition by samples of mutant P. falciparum lines that expressed either the P. falciparum or P. chabaudi form of MSP1-19 were used to quantify MSP1-19 specific growth-inhibitory antibodies. The great majority of children had detectable IgG to MSP1-19, and high levels of IgG were significantly associated with a reduced risk of symptomatic P. falciparum malaria during the 6-month follow-up period. However, there was little evidence of PfMSP1-19 specific growth inhibition by plasma samples from children. Similar results were found when testing non-dialysed or dialysed plasma, or purified antibodies, or when measuring growth inhibition in flow cytometry or microscopy-based assays. Rabbit antisera generated by immunization with recombinant MSP1-19 demonstrated strong MSP1-19 specific growth-inhibitory activity, which appeared to be due to much higher antibody levels than human samples; antibody avidity was similar between rabbit antisera and human plasma. CONCLUSIONS/SIGNIFICANCE: These data suggest that MSP1-19 is not a major target of growth inhibitory antibodies and that the protective effects of antibodies to MSP1-19 are not due to growth inhibitory activity, but may instead be mediated by other mechanisms. Alternatively, antibodies to MSP1-19 may act as a marker of protective immunity.

Published
2011

50. Super-resolution dissection of coordinated events during malaria parasite invasion of the human erythrocyte

Author

Riglar, DT, Richard, D, Wilson, DW, Boyle, MJ, Dekiwadia, C, Turnbull, L, Angrisano, F, Marapana, DS, Rogers, KL, Whitchurch, CB, Beeson, JG, Cowman, AF, Ralph, SA, Baum, J, Riglar, DT, Richard, D, Wilson, DW, Boyle, MJ, Dekiwadia, C, Turnbull, L, Angrisano, F, Marapana, DS, Rogers, KL, Whitchurch, CB, Beeson, JG, Cowman, AF, Ralph, SA, and Baum, J

Abstract

Erythrocyte invasion by the merozoite is an obligatory stage in Plasmodium parasite infection and essential to malaria disease progression. Attempts to study this process have been hindered by the poor invasion synchrony of merozoites from the only in vitro culture-adapted human malaria parasite, Plasmodium falciparum. Using fluorescence, three-dimensional structured illumination, and immunoelectron microscopy of filtered merozoites, we analyze cellular and molecular events underlying each discrete step of invasion. Monitoring the dynamics of these events revealed that commitment to the process is mediated through merozoite attachment to the erythrocyte, triggering all subsequent invasion events, which then proceed without obvious checkpoints. Instead, coordination of the invasion process involves formation of the merozoite-erythrocyte tight junction, which acts as a nexus for rhoptry secretion, surface-protein shedding, and actomyosin motor activation. The ability to break down each molecular step allows us to propose a comprehensive model for the molecular basis of parasite invasion. © 2011 Elsevier Inc.

Published
2011

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