Your search keyword '"blood-stage"' showing total 9 results

1. Assessment of precision in growth inhibition assay (GIA) using human anti-PfRH5 antibodies

Author

Kazutoyo Miura, Ababacar Diouf, Michael P. Fay, Jordan R. Barrett, Ruth O. Payne, Ally I. Olotu, Angela M. Minassian, Sarah E. Silk, Simon J. Draper, and Carole A. Long

Subjects

Growth inhibition assay, RH5, Plasmodium falciparum, Vaccine, Blood-stage, Precision, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background For blood-stage malaria vaccine development, the in vitro growth inhibition assay (GIA) has been widely used to evaluate functionality of vaccine-induced antibodies (Ab), and Plasmodium falciparum reticulocyte-binding protein homolog 5 (RH5) is a leading blood-stage antigen. However, precision, also called “error of assay (EoA)”, in GIA readouts and the source of EoA has not been evaluated systematically. Methods In the Main GIA experiment, 4 different cultures of P. falciparum 3D7 parasites were prepared with red blood cells (RBC) collected from 4 different donors. For each culture, 7 different anti-RH5 Ab (either monoclonal or polyclonal Ab) were tested by GIA at two concentrations on three different days (168 data points). To evaluate sources of EoA in % inhibition in GIA (%GIA), a linear model fit was conducted including donor (source of RBC) and day of GIA as independent variables. In addition, 180 human anti-RH5 polyclonal Ab were tested in a Clinical GIA experiment, where each Ab was tested at multiple concentrations in at least 3 independent GIAs using different RBCs (5,093 data points). The standard deviation (sd) in %GIA and in GIA50 (Ab concentration that gave 50%GIA) readouts, and impact of repeat assays on 95% confidence interval (95%CI) of these readouts was estimated. Results The Main GIA experiment revealed that the RBC donor effect was much larger than the day effect, and an obvious donor effect was also observed in the Clinical GIA experiment. Both %GIA and log-transformed GIA50 data reasonably fit a constant sd model, and sd of %GIA and log-transformed GIA50 measurements were calculated as 7.54 and 0.206, respectively. Taking the average of three repeat assays (using three different RBCs) reduces the 95%CI width in %GIA or in GIA50 measurements by ~ half compared to a single assay. Conclusions The RBC donor effect (donor-to-donor variance on the same day) in GIA was much bigger than the day effect (day-to-day variance using the same donor’s RBC) at least for the RH5 Ab evaluated in this study; thus, future GIA studies should consider the donor effect. In addition, the 95%CI for %GIA and GIA50 shown here help when comparing GIA results from different samples/groups/studies; therefore, this study supports future malaria blood-stage vaccine development.

Published

2023

2. Assessment of precision in growth inhibition assay (GIA) using human anti-PfRH5 antibodies.

Author

Miura, Kazutoyo, Diouf, Ababacar, Fay, Michael P., Barrett, Jordan R., Payne, Ruth O., Olotu, Ally I., Minassian, Angela M., Silk, Sarah E., Draper, Simon J., and Long, Carole A.

Abstract

Background: For blood-stage malaria vaccine development, the in vitro growth inhibition assay (GIA) has been widely used to evaluate functionality of vaccine-induced antibodies (Ab), and Plasmodium falciparum reticulocyte-binding protein homolog 5 (RH5) is a leading blood-stage antigen. However, precision, also called “error of assay (EoA)”, in GIA readouts and the source of EoA has not been evaluated systematically. Methods: In the Main GIA experiment, 4 different cultures of P. falciparum 3D7 parasites were prepared with red blood cells (RBC) collected from 4 different donors. For each culture, 7 different anti-RH5 Ab (either monoclonal or polyclonal Ab) were tested by GIA at two concentrations on three different days (168 data points). To evaluate sources of EoA in % inhibition in GIA (%GIA), a linear model fit was conducted including donor (source of RBC) and day of GIA as independent variables. In addition, 180 human anti-RH5 polyclonal Ab were tested in a Clinical GIA experiment, where each Ab was tested at multiple concentrations in at least 3 independent GIAs using different RBCs (5,093 data points). The standard deviation (sd) in %GIA and in GIA50 (Ab concentration that gave 50%GIA) readouts, and impact of repeat assays on 95% confidence interval (95%CI) of these readouts was estimated. Results: The Main GIA experiment revealed that the RBC donor effect was much larger than the day effect, and an obvious donor effect was also observed in the Clinical GIA experiment. Both %GIA and log-transformed GIA50 data reasonably fit a constant sd model, and sd of %GIA and log-transformed GIA50 measurements were calculated as 7.54 and 0.206, respectively. Taking the average of three repeat assays (using three different RBCs) reduces the 95%CI width in %GIA or in GIA50 measurements by ~ half compared to a single assay. Conclusions: The RBC donor effect (donor-to-donor variance on the same day) in GIA was much bigger than the day effect (day-to-day variance using the same donor’s RBC) at least for the RH5 Ab evaluated in this study; thus, future GIA studies should consider the donor effect. In addition, the 95%CI for %GIA and GIA50 shown here help when comparing GIA results from different samples/groups/studies; therefore, this study supports future malaria blood-stage vaccine development. [ABSTRACT FROM AUTHOR]

Published

2023

3. Preclinical development of a stabilized RH5 virus-like particle vaccine that induces improved antimalarial antibodies.

Author

King LDW, Pulido D, Barrett JR, Davies H, Quinkert D, Lias AM, Silk SE, Pattinson DJ, Diouf A, Williams BG, McHugh K, Rodrigues A, Rigby CA, Strazza V, Suurbaar J, Rees-Spear C, Dabbs RA, Ishizuka AS, Zhou Y, Gupta G, Jin J, Li Y, Carnrot C, Minassian AM, Campeotto I, Fleishman SJ, Noe AR, MacGill RS, King CR, Birkett AJ, Soisson LA, Long CA, Miura K, Ashfield R, Skinner K, Howarth MR, Biswas S, and Draper SJ

Subjects

Animals, Humans, Mice, Rats, Malaria, Falciparum prevention & control, Malaria, Falciparum immunology, Antigens, Protozoan immunology, Female, Carrier Proteins immunology, Mice, Inbred BALB C, Malaria Vaccines immunology, Antibodies, Protozoan immunology, Plasmodium falciparum immunology, Vaccines, Virus-Like Particle immunology, Protozoan Proteins immunology

Abstract

Plasmodium falciparum reticulocyte-binding protein homolog 5 (RH5) is a leading blood-stage malaria vaccine antigen target, currently in a phase 2b clinical trial as a full-length soluble protein/adjuvant vaccine candidate called RH5.1/Matrix-M. We identify that disordered regions of the full-length RH5 molecule induce non-growth inhibitory antibodies in human vaccinees and that a re-engineered and stabilized immunogen (including just the alpha-helical core of RH5) induces a qualitatively superior growth inhibitory antibody response in rats vaccinated with this protein formulated in Matrix-M adjuvant. In parallel, bioconjugation of this immunogen, termed "RH5.2," to hepatitis B surface antigen virus-like particles (VLPs) using the "plug-and-display" SpyTag-SpyCatcher platform technology also enables superior quantitative antibody immunogenicity over soluble protein/adjuvant in vaccinated mice and rats. These studies identify a blood-stage malaria vaccine candidate that may improve upon the current leading soluble protein vaccine candidate RH5.1/Matrix-M. The RH5.2-VLP/Matrix-M vaccine candidate is now under evaluation in phase 1a/b clinical trials., Competing Interests: Declaration of interests S.J.D. is an inventor on patent applications relating to RH5 malaria vaccines and antibodies, is a co-founder of and shareholder in SpyBiotech, and has been a consultant to GSK on malaria vaccines. A.M.M. has been a consultant to GSK on malaria vaccines, has an immediate family member who is an inventor on patent applications relating to RH5 malaria vaccines and antibodies, and is a co-founder of and shareholder in SpyBiotech. M.R.H. is an inventor on patents relating to peptide targeting via spontaneous amide bond formation and is a co-founder of and shareholder in SpyBiotech. S.B. is an inventor on patent applications relating to vaccines made using spontaneous amide bond formation and is a co-founder of, shareholder in, and employee of SpyBiotech. J.J. is an inventor on patent applications relating to vaccines made using spontaneous amide bond formation and is a co-founder of and shareholder in SpyBiotech. R.A.D. is an inventor on patent applications relating to vaccines made using spontaneous amide bond formation and shareholder in SpyBiotech. L.D.W.K., J.R.B., D.Q., A.M.L., S.E.S., B.G.W., K. McHugh, I.C., S.J.F., and D.P. are inventors on patent applications relating to RH5 malaria vaccines and/or antibodies., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Blood-stage antimalarial activity, favourable metabolic stability and in vivo toxicity of novel piperazine linked 7-chloroquinoline-triazole conjugates.

Author

Uddin, Amad, Gupta, Sonal, Shoaib, Rumaisha, Aneja, Babita, Irfan, Iram, Gupta, Kanika, Rawat, Neha, Combrinck, Jill, Kumar, Bhumika, Aleem, Mohd, Hasan, Phool, Joshi, Mukesh C., Chhonker, Yashpal S., Zahid, Muhammad, Hussain, Afzal, Pandey, Kailash, Alajmi, Mohamed F., Murry, Daryl J., Egan, Timothy J., and Singh, Shailja

Subjects

*PIPERAZINE, *ANTIMALARIALS, *STRUCTURE-activity relationships, *DRUG resistance, *PLASMODIUM falciparum, *CHLOROQUINE

Abstract

The persistence of drug resistance poses a significant obstacle to the advancement of efficacious malaria treatments. The remarkable efficacy displayed by 1,2,3-triazole-based compounds against Plasmodium falciparum highlights the potential of triazole conjugates, with diverse pharmacologically active structures, as potential antimalarial agents. We aimed to synthesize 7-dichloroquinoline-triazole conjugates and their structure-activity relationship (SAR) derivatives to investigate their anti-plasmodial activity. Among them, QP11, featuring a m -NO 2 substitution, demonstrated efficacy against both chloroquine-sensitive and -resistant parasite strains. QP11 selectively inhibited FP2, a cysteine protease involved in hemoglobin degradation, and showed synergistic effects when combined with chloroquine. Additionally, QP11 hindered hemoglobin degradation and hemozoin formation within the parasite. Metabolic stability studies indicated high stability of QP11, making it a promising antimalarial candidate. In vivo evaluation using a murine malaria model demonstrated QP11's efficacy in eradicating parasite growth without neurotoxicity, presenting it as a promising compound for novel antimalarial development. [Display omitted] • Quinoline-triazole conjugates with various linkers & their SAR studies. • IC 50 of QP11 found to be 0.97 (3D7) & 1.8 μM (RKL9) strains of P. falciparum. • QP11 showed synergistic effect in combination with CQ on the parasite growth. • In vivo studies proved the efficacy, safety profile & non-toxicity of QP11. [ABSTRACT FROM AUTHOR]

Published

2024

5. New 4-(N-cinnamoylbutyl)aminoacridines as potential multi-stage antiplasmodial leads.

Author

Fonte, Mélanie, Fontinha, Diana, Moita, Diana, Caño-Prades, Omar, Avalos-Padilla, Yunuen, Fernàndez-Busquets, Xavier, Prudêncio, Miguel, Gomes, Paula, and Teixeira, Cátia

Subjects

*ERYTHROCYTES, *PLASMODIUM berghei, *PLASMODIUM falciparum, *ACRIDINE, *GERM cells, *ACRIDINE derivatives

Abstract

A novel family of 4-aminoacridine derivatives was obtained by linking this heteroaromatic core to different trans -cinnamic acids. The 4-(N -cinnamoylbutyl)aminoacridines obtained exhibited in vitro activity in the low- or sub-micromolar range against (i) hepatic stages of Plasmodium berghei , (ii) erythrocytic forms of Plasmodium falciparum , and (iii) early and mature gametocytes of Plasmodium falciparum. The most active compound, having a meta -fluorocinnamoyl group linked to the acridine core, was 20- and 120-fold more potent, respectively, against the hepatic and gametocyte stages of Plasmodium infection than the reference drug, primaquine. Moreover, no cytotoxicity towards mammalian and red blood cells at the concentrations tested was observed for any of the compounds under investigation. These novel conjugates represent promising leads for the development of new multi-target antiplasmodials. [Display omitted] • 4-(N -cinnamoylbutyl)aminoacridines were synthesized as potential multi-stage antiplasmodial leads. • Hybrids were active against blood-, liver- and gametocyte-stages of Plasmodium. • The most active compound contained a meta -fluorocinnamoyl group linked to the acridine core. • None of the derivatives were toxic against red blood cells at the highest concentration tested. [ABSTRACT FROM AUTHOR]

Published

2023

6. Naturally acquired antibody kinetics against Plasmodium vivax antigens in people from a low malaria transmission region in western Thailand

Author

Liu, Zoe, Sattabongkot, J, White, M, Chotirat, S, Kumpitak, C, Takashima, E, Harbers, M, Tham, WH, Healer, J, Chitnis, CE, Tsuboi, T, Mueller, I, Longley, RJ, Liu, Zoe, Sattabongkot, J, White, M, Chotirat, S, Kumpitak, C, Takashima, E, Harbers, M, Tham, WH, Healer, J, Chitnis, CE, Tsuboi, T, Mueller, I, and Longley, RJ

Abstract

Abstract Background Plasmodium vivax (P. vivax) is the dominant Plasmodium spp. causing the disease malaria in low-transmission regions outside of Africa. These regions often feature high proportions of asymptomatic patients with sub-microscopic parasitaemia and relapses. Naturally acquired antibody responses are induced after Plasmodium infection, providing partial protection against high parasitaemia and clinical episodes. However, previous work has failed to address the presence and maintenance of such antibody responses to P. vivax particularly in low-transmission regions. Methods We followed 34 patients in western Thailand after symptomatic P. vivax infections to monitor antibody kinetics over 9 months, during which no recurrent infections occurred. We assessed total IgG, IgG subclass and IgM levels to up to 52 P. vivax proteins every 2–4 weeks using a multiplexed Luminex® assay and identified protein-specific variation in antibody longevity. Mathematical modelling was used to generate the estimated half-life of antibodies, long-, and short-lived antibody-secreting cells. Results Generally, an increase in antibody level was observed within 1-week post symptomatic infection, followed by an exponential decay of different rates. We observed mostly IgG1 dominance and IgG3 sub-dominance in this population. IgM responses followed similar kinetic patterns to IgG, with some proteins unexpectedly inducing long-lived IgM responses. We also monitored antibody responses against 27 IgG-immunogenic antigens in 30 asymptomatic individuals from a similar region. Our resu

Published

2022

7. Drug-derived surface-active ionic liquids: a cost-effective way to expressively increase the blood-stage antimalarial activity of primaquine

Author

Silva, Ana Teresa, Oliveira, Isabel S., Gomes, Joana, Aguiar, Luísa, Fontinha, Diana, Duarte, Denise, Nogueira, Fátima, Prudêncio, Miguel, Marques, Eduardo F., Teixeira, Cátia, Ferraz, Ricardo, Gomes, Paula, and Repositório Científico do Instituto Politécnico do Porto

Subjects

Plasmodium, SAIL, Blood-stage, Antimalarial, Liver-stage, Ionic liquid, Fatty acid, Surface activity

Abstract

Inspired by previous disclosure of room-temperature ionic liquids derived from primaquine and cinnamic acids, which displayed slightly enhanced blood-stage activity compared to the parent drug, we have now combined this emblematic antimalarial with natural fatty acids. This affords surface-active ionic liquids whose liver-stage antiplasmodial activity is either retained or slightly enhanced, while revealing blood-stage antiplasmodial activity at least one order of magnitude higher than that of the parent compound. These findings open new perspectives towards the cost-effective recycling of classical drugs that are either shelved or in decline, and which is not limited to antimalarial agents.

Published

2021

8. Corrigendum: Drug-Derived Surface-Active Ionic Liquids: A Cost-Effective Way To Expressively Increase the Blood-Stage Antimalarial Activity of Primaquine.

Author

Silva AT, Oliveira IS, Gomes J, Aguiar L, Fontinha D, Duarte D, Nogueira F, Prudêncio M, Marques EF, Teixeira C, Ferraz R, and Gomes P

Published

2023

9. Drug-Derived Surface-Active Ionic Liquids: A Cost-Effective Way To Expressively Increase the Blood-Stage Antimalarial Activity of Primaquine.

Author

Silva AT, Oliveira IS, Gomes J, Aguiar L, Fontinha D, Duarte D, Nogueira F, Prudêncio M, Marques EF, Teixeira C, Ferraz R, and Gomes P

Subjects

Cost-Benefit Analysis, Plasmodium falciparum, Primaquine pharmacology, Antimalarials pharmacology, Folic Acid Antagonists pharmacology, Ionic Liquids pharmacology

Abstract

Inspired by previous disclosure of room-temperature ionic liquids derived from primaquine and cinnamic acids, which displayed slightly enhanced blood-stage activity compared to the parent drug, we have now combined this emblematic antimalarial with natural fatty acids. This affords surface-active ionic liquids whose liver-stage antiplasmodial activity is either retained or slightly enhanced, while revealing blood-stage antiplasmodial activity at least one order of magnitude higher than that of the parent compound. These findings open new perspectives towards the cost-effective recycling of classical drugs that are either shelved or in decline, and which is not limited to antimalarial agents., (© 2021 Wiley-VCH GmbH.)

Published

2022